Thioesterases and cells for production of tailored oils

ABSTRACT

The invention features plant acyl-ACP thioesterase genes of the FatB class and proteins encoded by these genes. The genes are useful for constructing recombinant host cells having altered fatty acid profiles. Oleaginous microalga host cells with the new genes or previously identified FatB genes are disclosed. The microalgae cells produce triglycerides with useful fatty acid profiles.

This application is a Continuation-in-part of U.S. patent application Ser. No. 13/837,996, filed Mar. 15, 2013, and claims the benefit of U.S. Provisional Patent Application Ser. No. 61/791,861, filed Mar. 15, 2013, and U.S. Provisional Patent Application Ser. No. 61/917,217, filed Dec. 17, 2013, each of which is hereby incorporated by reference herein in its entirety.

BACKGROUND

Certain organisms including plants and some microalgae use a type II fatty acid biosynthetic pathway, characterized by the use of discrete, monofunctional enzymes for fatty acid synthesis. In contrast, mammals and fungi use a single, large, multifunctional protein.

Type II fatty acid biosynthesis typically involves extension of a growing acyl-ACP (acyl-carrier protein) chain by two carbon units followed by cleavage by an acyl-ACP thioesterase. In plants, two main classes of acyl-ACP thioesterases have been identified: (i) those encoded by genes of the FatA class, which tend to hydrolyze oleoyl-ACP into oleate (an 18:1 fatty acid) and ACP, and (ii) those encoded by genes of the FatB class, which liberate C8-C16 fatty acids from corresponding acyl-ACP molecules.

Different FatB genes from various plants have specificities for different acyl chain lengths. As a result, different gene products will produce different fatty acid profiles in plant seeds. See, U.S. Pat. Nos. 5,850,022; 5,723,761; 5,639,790; 5,807,893; 5,455,167; 5,654,495; 5,512,482;5,298,421;5,667,997; and 5,344,771; 5,304,481. Recently, FatB genes have been cloned into oleaginous microalgae to produce triglycerides with altered fatty acid profiles. See, WO2010/063032, WO2011/150411, WO2012/106560, and WO2013/158938.

SUMMARY

In various aspects, the invention(s) contemplated herein may include, but need not be limited to, any one or more of the following embodiments:

Embodiment 1

A nucleic acid construct including a regulatory element and a FatB gene expressing an active acyl-ACP thioesterase operable to produce an altered fatty acid profile in an oil produced by a cell expressing the nucleic acid construct, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 5 of Table 1a, the sequence having at least 94.6% sequence identity with each of SEQ ID NOs: 88, 82, 85, and 103, and optionally wherein the fatty acid of the oil is enriched in C8 and C10 fatty acids.

Embodiment 2

A nucleic acid construct including a regulatory element and a FatB gene expressing an active acyl-ACP thioesterase operable to produce an altered fatty acid profile in an oil produced by a cell expressing the nucleic acid construct, wherein the FatB gene expresses a protein having an amino acid sequence falling within one of clades 1-12 of Table 1a.

Embodiment 3

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 1 of Table 1a, the sequence having at least 85.9% sequence identity with each of SEQ ID NOs: 19, 161, 22, and 160, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.

Embodiment 4

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 2 of Table 1a, the sequence having at least 89.5% sequence identity with each of SEQ ID NOs: 134-136, 132, 133, 137, 124, 122, 123, 125, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 5

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 3 of Table 1a, the sequence having at least 92.5% sequence identity with each of SEQ ID NOs: 126 and 127, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 6

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 4 of Table 1a, the sequence having at least 83.8% sequence identity with SEQ ID NO: 79, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 7

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 6 of Table 1a, the sequence having at least 99.9% sequence identity with each of SEQ ID NOs: 111 and 110, and optionally wherein the fatty acid of the oil is enriched in C10 fatty acids.

Embodiment 8

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 7 of Table 1a, the sequence having at least 89.5% sequence identity with each of SEQ ID NOs: 73, 106, 185, 172, 171, 173, 174, and optionally wherein the fatty acid of the oil is enriched in C10 and C12 fatty acids.

Embodiment 9

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 8 of Table 1a, the sequence having at least 85.9% sequence identity with each of SEQ ID NOs: 112, 113, 142, 145, 143, 144, 139, 140, 138, 141, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 10

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 9 of Table 1a, the sequence having at least 83.8% sequence identity with each of SEQ ID NOs: 187-189, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 11

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 10 of Table 1a, the sequence having at least 95.9% sequence identity with each of SEQ ID NOs: 147, 149, 146, 150, 152, 151, 148, 154, 156, 155, 157, 108, 75, 190, 191, and 192, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.

Embodiment 12

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 11 of Table 1a, the sequence having at least 88.7% sequence identity with SEQ ID NO: 121, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.

Embodiment 13

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 12 of Table 1a, the sequence having at least 72.8% sequence identity with each of SEQ ID NOs: 129 and 186, and optionally wherein the fatty acid of the oil is enriched in C16 fatty acids.

Embodiment 14

An isolated nucleic acid or recombinant DNA construct including a nucleic acid, wherein the nucleic acid has at least 80% sequence identity to any of SEQ ID NOS: 2, 3, 5, 6, 8, 9, 11, 12, 14, 15, 17, 18, 20, 21, 23, 24, 26, 27, 29, 30, 32, 33, 35, 36, 38, 39, 41, 42, 44, 45, 47, 48, 50, 51, 53, 54, 56, 57, 59, 60, 62, 63, 65, 66, 68, 69, 71, 72, 74, 76, 78, 80, 81, 83, 84, 86, 87, 89, 90, 92, 93, 95, 96, 98, 99, 101, 102, 104, 105, 107, 109 or any equivalent sequences by virtue of the degeneracy of the genetic code.

Embodiment 15

An isolated nucleic acid sequence encoding a protein or a host cell expressing a protein having at least 80% sequence identity to any of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, 110-192 or a fragment thereof having acyl-ACP thioesterase activity.

Embodiment 16

The isolated nucleic acid of embodiment 15, wherein, the protein has acyl-ACP thioesterase activity operable to alter the fatty acid profile of an oil produced by a recombinant cell including that sequence.

Embodiment 17

A method of producing a recombinant cell that produces an altered fatty acid profile, the method including transforming the cell with a nucleic acid according to any of embodiments 1-3.

Embodiment 18

A host cell produced by the method of embodiment 17.

Embodiment 19

The host cell of embodiment 18, wherein the host cell is selected from a plant cell, a microbial cell, and a microalgal cell.

Embodiment 20

A method for producing an oil or oil-derived product, the method including cultivating a host cell of embodiment 5 or 6, and extracting oil produced thereby, optionally wherein the cultivation is heterotrophic growth on sugar.

Embodiment 21

The method of embodiment 20, further including producing a fatty acid, fuel, chemical, or other oil-derived product from the oil.

Embodiment 22

An oil produced by the method of embodiment 20, optionally having a fatty acid profile including at least 20% C8, C10, C12, C14 or C16 fatty acids.

Embodiment 23

An oil-derived product produced by the method of embodiment 21.

Embodiment 24

The oil of embodiment 23, wherein the oil is produced by a microalgae and optionally, lacks C24-alpha sterols.

DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS OF THE INVENTION Definitions

As used with respect to nucleic acids, the term “isolated” refers to a nucleic acid that is free of at least one other component that is typically present with the naturally occurring nucleic acid. Thus, a naturally occurring nucleic acid is isolated if it has been purified away from at least one other component that occurs naturally with the nucleic acid.

A “natural oil” or “natural fat” shall mean a predominantly triglyceride oil obtained from an organism, where the oil has not undergone blending with another natural or synthetic oil, or fractionation so as to substantially alter the fatty acid profile of the triglyceride. In connection with an oil comprising triglycerides of a particular regiospecificity, the natural oil or natural fat has not been subjected to interesterification or other synthetic process to obtain that regiospecific triglyceride profile, rather the regiospecificity is produced naturally, by a cell or population of cells. In connection with a natural oil or natural fat, and as used generally throughout the present disclosure, the terms oil and fat are used interchangeably, except where otherwise noted. Thus, an “oil” or a “fat” can be liquid, solid, or partially solid at room temperature, depending on the makeup of the substance and other conditions. Here, the term “fractionation” means removing material from the oil in a way that changes its fatty acid profile relative to the profile produced by the organism, however accomplished. The terms “natural oil” and “natural fat” encompass such oils obtained from an organism, where the oil has undergone minimal processing, including refining, bleaching and/or degumming, which does not substantially change its triglyceride profile. A natural oil can also be a “noninteresterified natural oil”, which means that the natural oil has not undergone a process in which fatty acids have been redistributed in their acyl linkages to glycerol and remain essentially in the same configuration as when recovered from the organism.

“Exogenous gene” shall mean a nucleic acid that codes for the expression of an RNA and/or protein that has been introduced into a cell (e.g. by transformation/transfection), and is also referred to as a “transgene”. A cell comprising an exogenous gene may be referred to as a recombinant cell, into which additional exogenous gene(s) may be introduced. The exogenous gene may be from a different species (and so heterologous), or from the same species (and so homologous), relative to the cell being transformed. Thus, an exogenous gene can include a homologous gene that occupies a different location in the genome of the cell or is under different control, relative to the endogenous copy of the gene. An exogenous gene may be present in more than one copy in the cell. An exogenous gene may be maintained in a cell, for example, as an insertion into the genome (nuclear or plastid) or as an episomal molecule.

“Fatty acids” shall mean free fatty acids, fatty acid salts, or fatty acyl moieties in a glycerolipid. It will be understood that fatty acyl groups of glycerolipids can be described in terms of the carboxylic acid or anion of a carboxylic acid that is produced when the triglyceride is hydrolyzed or saponified.

“Microalgae” are microbial organisms that contain a chloroplast or other plastid, and optionally that are capable of performing photosynthesis, or a prokaryotic microbial organism capable of performing photosynthesis. Microalgae include obligate photoautotrophs, which cannot metabolize a fixed carbon source as energy, as well as heterotrophs, which can live solely off of a fixed carbon source. Microalgae include unicellular organisms that separate from sister cells shortly after cell division, such as Chlamydomonas, as well as microbes such as, for example, Volvox, which is a simple multicellular photosynthetic microbe of two distinct cell types. Microalgae include cells such as Chlorella, Dunaliella, and Prototheca. Microalgae also include other microbial photosynthetic organisms that exhibit cell-cell adhesion, such as Agmenellum, Anabaena, and Pyrobotrys. Microalgae also include obligate heterotrophic microorganisms that have lost the ability to perform photosynthesis, such as certain dinoflagellate algae species and species of the genus Prototheca.

An “oleaginous” cell is a cell capable of producing at least 20% lipid by dry cell weight, naturally or through recombinant or classical strain improvement. An “oleaginous microbe” or “oleaginous microorganism” is a microbe, including a microalga that is oleaginous.

The term “percent sequence identity,” in the context of two or more amino acid or nucleic acid sequences, refers to two or more sequences or subsequences that are the same or have a specified percentage of amino acid residues or nucleotides that are the same, when compared and aligned for maximum correspondence, as measured using a sequence comparison algorithm or by visual inspection. For sequence comparison to determine percent nucleotide or amino acid identity, typically one sequence acts as a reference sequence, to which test sequences are compared. When using a sequence comparison algorithm, test and reference sequences are input into a computer, subsequence coordinates are designated, if necessary, and sequence algorithm program parameters are designated. The sequence comparison algorithm then calculates the percent sequence identity for the test sequence(s) relative to the reference sequence, based on the designated program parameters. Optimal alignment of sequences for comparison can be conducted using the NCBI BLAST software (ncbi.nlm.nih.gov/BLAST/) set to default parameters. For example, to compare two nucleic acid sequences, one may use blastn with the “BLAST 2 Sequences” tool Version 2.0.12 (Apr. 21, 2000) set at the following default parameters: Matrix: BLOSUM62; Reward for match: 1; Penalty for mismatch: −2; Open Gap: 5 and Extension Gap: 2 penalties; Gap×drop-off: 50; Expect: 10; Word Size: 11; Filter: on. For a pairwise comparison of two amino acid sequences, one may use the “BLAST 2 Sequences” tool Version 2.0.12 (Apr. 21, 2000) with blastp set, for example, at the following default parameters: Matrix: BLOSUM62; Open Gap: 11 and Extension Gap: 1 penalties; Gap×drop-off 50; Expect: 10; Word Size: 3; Filter: on.

In connection with a natural oil, a “profile” is the distribution of particular species or triglycerides or fatty acyl groups within the oil. A “fatty acid profile” is the distribution of fatty acyl groups in the triglycerides of the oil without reference to attachment to a glycerol backbone. Fatty acid profiles are typically determined by conversion to a fatty acid methyl ester (FAME), followed by gas chromatography (GC) analysis with flame ionization detection (FID). The fatty acid profile can be expressed as one or more percent of a fatty acid in the total fatty acid signal determined from the area under the curve for that fatty acid. FAME-GC-FID measurement approximate weight percentages of the fatty acids.

As used herein, an oil is said to be “enriched” in one or more particular fatty acids if there is at least a 10% increase in the mass of that fatty acid in the oil relative to the non-enriched oil. For example, in the case of a cell expressing a heterologous FatB gene described herein, the oil produced by the cell is said to be enriched in, e.g., C8 and C16 fatty acids if the mass of these fatty acids in the oil is at least 10% greater than in oil produced by a cell of the same type that does not express the heterologous FatB gene (e.g., wild type oil).

“Recombinant” is a cell, nucleic acid, protein or vector that has been modified due to the introduction of an exogenous nucleic acid or the alteration of a native nucleic acid. Thus, e.g., recombinant (host) cells can express genes that are not found within the native (non-recombinant) form of the cell or express native genes differently than those genes are expressed by a non-recombinant cell. Recombinant cells can, without limitation, include recombinant nucleic acids that encode a gene product or suppression elements such as mutations, knockouts, antisense, interfering RNA (RNAi) or dsRNA that reduce the levels of active gene product in a cell. A “recombinant nucleic acid” is a nucleic acid originally formed in vitro, in general, by the manipulation of nucleic acid, e.g., using polymerases, ligases, exonucleases, and endonucleases, using chemical synthesis, or otherwise is in a form not normally found in nature. Recombinant nucleic acids may be produced, for example, to place two or more nucleic acids in operable linkage. Thus, an isolated nucleic acid or an expression vector formed in vitro by nucleic by ligating DNA molecules that are not normally joined in nature, are both considered recombinant for the purposes of this invention. Recombinant nucleic acids can also be produced in other ways; e.g., using chemical DNA synthesis. Once a recombinant nucleic acid is made and introduced into a host cell or organism, it may replicate using the in vivo cellular machinery of the host cell; however, such nucleic acids, once produced recombinantly, although subsequently replicated intracellularly, are still considered recombinant for purposes of this invention. Similarly, a “recombinant protein” is a protein made using recombinant techniques, i.e., through the expression of a recombinant nucleic acid.

Embodiments of the present invention relate to the use of FatB genes isolated from plants, which can be expressed in a host cell in order to alter the fatty acid profile of an oil produced by the recombinant cell. Although the microalga, Prototheca moriformis, was used to screen the genes for ability to the alter fatty acid profile, the genes are useful in a wide variety of host cells. For example, the genes can be expressed in bacteria, other microalgae, or higher plants. The genes can be expressed in higher plants according to the methods of U.S. Pat. Nos. 5,850,022; 5,723,761; 5,639,790; 5,807,893; 5,455,167; 5,654,495; 5,512,482;5,298,421;5,667,997; 5,344,771; and 5,304,481. The fatty acids can be further converted to triglycerides, fatty aldehydes, fatty alcohols and other oleochemicals either synthetically or biosynthetically.

In specific embodiments, triglycerides are produced by a host cell expressing a novel FatB gene. A triglyceride-containing natural oil can be recovered from the host cell. The natural oil can be refined, degummed, bleached and/or deodorized. The oil, in its natural or processed form, can be used for foods, chemicals, fuels, cosmetics, plastics, and other uses. In other embodiments, the FatB gene may not be novel, but the expression of the gene in a microalga is novel.

The genes can be used in a variety of genetic constructs including plasmids or other vectors for expression or recombination in a host cell. The genes can be codon optimized for expression in a target host cell. The proteins produced by the genes can be used in vivo or in purified form.

For example, the gene can be prepared in an expression vector comprising an operably linked promoter and 5′UTR. Where a plastidic cell is used as the host, a suitably active plastid targeting peptide can be fused to the FATB gene, as in the examples below. Generally, for the newly identified FATB genes, there are roughly 50 amino acids at the N-terminal that constitute a plastid transit peptide, which are responsible for transporting the enzyme to the chloroplast. In the examples below, this transit peptide is replaced with a 38 amino acid sequence that is effective in the Prototheca moriformis host cell for transporting the enzyme to the plastids of those cells. Thus, the invention contemplates deletions and fusion proteins in order to optimize enzyme activity in a given host cell. For example, a transit peptide from the host or related species may be used instead of that of the newly discovered plant genes described here.

A selectable marker gene may be included in the vector to assist in isolating a transformed cell. Examples of selectable markers useful in microlagae include sucrose invertase and antibiotic resistance genes.

The gene sequences disclosed can also be used to prepare antisense, or inhibitory RNA (e.g., RNAi or hairpin RNA) to inhibit complementary genes in a plant or other organism.

FatB genes found to be useful in producing desired fatty acid profiles in a cell are summarized below in Table 1. Nucleic acids or proteins having the sequence of SEQ ID NOS: 1-109 can be used to alter the fatty acid profile of a recombinant cell. Variant nucleic acids can also be used; e.g., variants having at least 70, 80, 85, 90, 95, 96, 97, 98, or 99% sequence identity to SEQ ID NOS: 2, 3, 5, 6, 8, 9, 11, 12, 14, 15, 17, 18, 20, 21, 23, 24, 26, 27, 29, 30, 32, 33, 35, 36, 38, 39, 41, 42, 44, 45, 47, 48, 50, 51, 53, 54, 56, 57, 59, 60, 62, 63, 65, 66, 68, 69, 71, 72, 74, 76, 78, 80, 81, 83, 84, 86, 87, 89, 90, 92, 93, 95, 96, 98, 99, 101, 102, 104, 105, 107 or 109. Codon optimization of the genes for a variety of host organisms is contemplated, as is the use of gene fragments. Preferred codons for Prototheca strains and for Chlorella protothecoides are shown below in Tables 2 and 3, respectively. Codon usage for Cuphea wrightii is shown in Table 3a. Codon usage for Arabidopsis is shown in Table 3b; for example, the most preferred of codon for each amino acid can be selected. Codon tables for other organisms including microalgae and higher plants are known in the art. In some embodiments, the first and/or second most preferred Prototheca codons are employed for codon optimization. In specific embodiments, the novel amino acid sequences contained in the sequence listings below are converted into nucleic acid sequences according to the most preferred codon usage in Prototheca, Chlorella, Cuphea wrightii, or Arabidopsis as set forth in tables 2 through 3b or nucleic acid sequences having at least 70, 80, 85, 90, 95, 96, 97, 98, or 99% sequence identity to these derived nucleic acid sequences.

In embodiments of the invention, there is protein or a nucleic acid encoding a protein having any of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, or 110-192. In an embodiment, there is protein or a nucleic acid encoding a protein having at least 70, 75, 80, 85, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, or 100% sequence identity with any of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, or 110-192. In certain embodiments, the invention encompasses a fragment any of the above-described proteins or nucleic acids (including fragments of protein or nucleic acid variants), wherein the protein fragment has acyl-ACP thioesterase activity or the nucleic acid fragment encodes such a protein fragment. In other embodiments, the fragment includes a domain of an acyl-ACP thioesterase that mediates a particular function, e.g., a specificity-determining domain. Illustrative fragments can be produced by C-terminal and/or N-terminal truncations and include at least 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, or 99% of the full-length sequences disclosed herein.

In certain embodiments, percent sequence identity for variants of the nucleic acids or proteins discussed above can be calculated by using the full-length nucleic acid sequence (e.g., one of SEQ ID NOS: 2, 3, 5, 6, 8, 9, 11, 12, 14, 15, 17, 18, 20, 21, 23, 24, 26, 27, 29, 30, 32, 33, 35, 36, 38, 39, 41, 42, 44, 45, 47, 48, 50, 51, 53, 54, 56, 57, 59, 60, 62, 63, 65, 66, 68, 69, 71, 72, 74, 76, 78, 80, 81, 83, 84, 86, 87, 89, 90, 92, 93, 95, 96, 98, 99, 101, 102, 104, 105, 107 or 109) or full-length amino acid sequence (e.g., one of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, or 110-192) as the reference sequence and comparing the full-length test sequence to this reference sequence. In some embodiments relating to fragments, percent sequence identity for variants of nucleic acid or protein fragments can be calculated over the entire length of the fragment.

The nucleic acids can be in isolated form, or part of a vector or other construct, chromosome or host cell. It has been found that is many cases the full length gene (and protein) is not needed; for example, deletion of some or all of the N-terminal hydrophobic domain (typically an 18 amino acid domain starting with LPDW) yields a still-functional gene. In addition, fusions of the specificity determining regions of the genes in Table 1 with catalytic domains of other acyl-ACP thioesterases can yield functional genes. Thus, in certain embodiments, the invention encompasses functional fragments (e.g., specificity determining regions) of the disclosed nucleic acid or amino acids fused to heterologous acyl-ACP thioesterase nucleic acid or amino acid sequences, respectively.

TABLE 1 FatB genes according to embodiments of the present invention Native CDS nucleotide Amino sequence Prototheca Acid (not codon- moriformis Sequence optimized, codon- of CDS no optimized Sequence Variant (no additional nucleotide (relative to dominant additional cloning sequence Species Gene Name transcript identified) tags) sites) of CDS Cinnamomum CcFATB1b M25L, M322R, SEQ ID SEQ ID SEQ ID camphora ΔT367-D368 NO: 1 NO: 2 NO: 3 Cinnamomum CcFATB4 “wild-type” SEQ ID SEQ ID SEQ ID camphora NO: 4 NO: 5 NO: 6 Cinnamomum CcFATB3 “wild-type” SEQ ID SEQ ID SEQ ID camphora NO: 7 NO: 8 NO: 9 Cuphea ChsFATB1 “wild-type” SEQ ID SEQ ID SEQ ID hyssopifolia NO: 10 NO: 11 NO: 12 Cuphea ChsFATB2 “wild-type” SEQ ID SEQ ID SEQ ID hyssopifolia NO: 13 NO: 14 NO: 15 Cuphea ChsFATB2b +a.a.248-259 SEQ ID SEQ ID SEQ ID hyssopifolia NO: 16 NO: 17 NO: 18 Cuphea ChsFATB3 “wild-type” SEQ ID SEQ ID SEQ ID hyssopifolia NO: 19 NO: 20 NO: 21 Cuphea ChsFATB3b V204I, C239F, SEQ ID SEQ ID SEQ ID hyssopifolia E243D, M251V NO: 22 NO: 23 NO: 24 Cuphea CuPSR23FATB3 “wild-type” SEQ ID SEQ ID SEQ ID PSR23 NO: 25 NO: 26 NO: 27 Cuphea CwFATB3 “wild-type” SEQ ID SEQ ID SEQ ID wrightii NO: 28 NO: 29 NO: 30 Cuphea CwFATB4a “wild-type” SEQ ID SEQ ID SEQ ID wrightii NO: 31 NO: 32 NO: 33 Cuphea CwFATB4b “wild-type” SEQ ID SEQ ID SEQ ID wrightii NO: 34 NO: 35 NO: 36 Cuphea CwFATB5 “wild-type” SEQ ID SEQ ID SEQ ID wrightii NO: 37 NO: 38 NO: 39 Cuphea ChtFATB1a “wild-type” SEQ ID SEQ ID SEQ ID heterophylla NO: 40 NO: 41 NO: 42 Cuphea ChtFATB1b P16S, T20P, G94S, SEQ ID SEQ ID SEQ ID heterophylla G105W, S293F, NO: 43 NO: 44 NO: 45 L305F Cuphea ChtFATB2b “wild-type” SEQ ID SEQ ID SEQ ID heterophylla NO: 46 NO: 47 NO: 48 Cuphea ChtFATB2a S17P, P21S, T28N, SEQ IDO SEQ ID SEQ ID heterophylla L30P, S33L, G76D, NO: 49 NO: 50 NO: 51 S78P, G137W Cuphea ChtFATB2c G76D, S78P SEQ ID SEQ ID SEQ ID heterophylla NO: 52 NO: 53 NO: 54 Cuphea ChtFATB2d S21P, T28N, L30P, SEQ ID SEQ ID SEQ ID heterophylla S33L, G76D, R97L, NO: 55 NO: 56 NO: 57 H124L, W127L, I132S, K258N, C303R, E309G, K334T, T386A Cuphea ChtFATB2e G76D, R97L, SEQ ID SEQ ID SEQ ID heterophylla H124L, I132S, NO: 58 NO: 59 NO: 60 G152S, H165L, T211N, K258N, C303R, E309G, K334T, T386A Cuphea ChtFATB2f R97L, H124L, SEQ ID SEQ ID SEQ ID heterophylla I132S, G152S, NO: 61 NO: 62 NO: 63 H165L, T211N Cuphea ChtFATB2g A6T, A16V, S17P, SEQ ID SEQ ID SEQ ID heterophylla G76D, R97L, NO: 64 NO: 65 NO: 66 H124L, I132S, S143I, G152S, A157T, H165L, T211N, G414A Cuphea ChtFATB3a “wild-type” SEQ ID SEQ ID SEQ ID heterophylla NO: 67 NO: 68 NO: 69 Cuphea ChtFATB3b C67G, H72Q, SEQ ID SEQ ID SEQ ID heterophylla L128F, N179I NO: 70 NO: 71 NO: 72 Cuphea CvisFATB1 published SEQ ID N/A SEQ ID viscosissima NO: 73 NO: 74 Cuphea CvisFATB2 published SEQ ID N/A SEQ ID viscosissima NO: 75 NO: 76 Cuphea CvisFATB3 published SEQ ID N/A SEQ ID viscosissima NO: 77 NO: 78 Cuphea CcalcFATB1 “wild-type” SEQ ID SEQ ID SEQ ID calcarata NO: 79 80 81 Cuphea CpaiFATB1 “wild-type” SEQ ID SEQ ID SEQ ID painteri NO: 82 83 84 Cuphea ChookFATB4 “wild-type” SEQ ID SEQ ID SEQ ID hookeriana NO: 85 86 87 Cuphea CaFATB1 “wild-type” SEQ ID SEQ ID SEQ ID avigera var. NO: 88 89 90 pulcherrima Cuphea CPauFATB1 “wild-type” SEQ ID SEQ ID SEQ ID paucipetala NO: 91 92 93 Cuphea CprocFATB1 “wild-type” SEQ ID SEQ ID SEQ ID procumbens NO: 94 95 96 Cuphea CprocFATB2 “wild-type” SEQ ID SEQ ID SEQ ID procumbens NO: 97 98 99 Cuphea CprocFATB3 “wild-type” SEQ ID SEQ ID SEQ ID procumbens NO: 100 101 102 Cuphea ignea CigneaFATB1 “wildtype”; partial SEQ ID SEQ ID SEQ ID (missing N-terminal NO: 103 104 105 portion of native transit peptide, fused to CpSAD1tp_trimmed transit peptide) Consensus JcFATB1 Consensus sequence SEQ ID None, can SEQ ID NO: 106 be codon NO: 107 optimized for a given host Consensus JcFATB2 Consensus sequence SEQ ID None, can SEQ ID NO: 108 be codon NO: 109 optimized for a given host In certain embodiments, a host cell (e.g. plant or microalgal cell) is transformed to produce a recombinant FATB protein falling into one of clades 1-12 of Table 1a. These clades were determined by sequence alignment and observation of changes in fatty acid profile when expressed in Prototheca. See Example 5. The FATB amino acid sequence can fall within x % amino acid sequence identity of each sequence in that Glade listed in Table 1a, where x is a first second or third cutoff value, also listed in Table 1a.

TABLE 1a Groupings of Novel FatB genes into clades. First Cutoff Value (minimum % amino acid identity to Second Third Clade Example Function members Cutoff Cutoff No. Amino Acid SEQ ID Nos. in Clade (see Table 6) of clade) Value Value 1 ChsFATB3 (SEQ ID NO: 19) Increase C14/C16 85.9 97.4 98 ChsFATB3d (SEQ ID NO: 161) fatty acids ChsFATB3b (SEQ ID NO: 22) ChsFATB3c (SEQ ID NO: 160) 2 ChtFATB1a.2 (SEQ ID NO: 134) Increase C12/C14 89.5 95 98 ChtFATB1a.3 (SEQ ID NO: 135) fatty acids ChtFATB1a.4 (SEQ ID NO: 136) ChtFATB1a (SEQ ID NO: 132)_(—) ChtFATB1a.1 (SEQ ID NO: 133) ChtFATB1b (SEQ ID NO: 137) CwFATB5b (SEQ ID NO: 124) CwFATB5 (SEQ ID NO: 122) CwFATB5a (SEQ ID NO: 123) CwFATB5c (SEQ ID NO: 125) 3 CwFATB5.1 (SEQ ID NO: 126) Increase C12/C14 92.5 95 98 CwFATB5.1a (SEQ ID NO: 127) fatty acids 4 CcalcFATB1 (SEQ ID NO: 79) Increase C12/C14 83.8 93 95 fatty acids 5 CaFATB1 (SEQ ID NO: 88) Increase C8/C10 94.6 96 98 CpaiFATB1 (SEQ ID NO: 82) fatty acids ChookFATB4 (SEQ ID NO: 85) CigneaFATB1 (SEQ ID NO: 103) 6 CuPSR23FATB3b (SEQ ID NO: 111) Increase C10 fatty 99.9 CuPSR23FATB3 (SEQ ID NO: 110) acids 7 CvisFATB1 (SEQ ID NO: 73) Increase C10/C12 89.5 93 96 JcFATB1/SzFATB1 (SEQ ID NO: 106) fatty acids CgFATB1b (SEQ ID NO: 185) CprocFATB1 (SEQ ID NO: 172) CpauFATB1 (SEQ ID NO: 171) CprocFATB2 (SEQ ID NO: 173) CprocFATB3 (SEQ ID NO: 174) 8 CwFATB3 (SEQ ID NO: 112) Increase C12/C14 85.9 98.9 99.5 CwFATB3a (SEQ ID NO: 113) fatty acids ChtFATB2e (SEQ ID NO: 142) ChtFATB2h (SEQ ID NO: 145) ChtFATB2f (SEQ ID NO: 143) ChtFATB2g (SEQ ID NO: 144) ChtFATB2a (SEQ ID NO: 139) ChtFATB2c (SEQ ID NO: 140) ChtFATB2b (SEQ ID NO: 138) ChtFATB2d (SEQ ID NO: 141) 9 CcrFATB2c (SEQ ID NO: 187) Increase C12/C14 83.8 90 95 CcrFATB2 (SEQ ID NO: 188) fatty acids CcrFATB2b (SEQ ID NO: 189) 10 ChtFATB3b (SEQ ID NO: 147) Increase C14/C16 95.9 98 99 ChtFATB3d (SEQ ID NO: 149) fatty acids ChtFATB3a (SEQ ID NO: 146) ChtFATB3e (SEQ ID NO: 150) ChtFATB3g (SEQ ID NO: 152) ChtFATB3f (SEQ ID NO: 151) ChtFATB3c (SEQ ID NO: 148) ChsFATB2 (SEQ ID NO: 154) ChsFATB2c (SEQ ID NO: 156) ChsFATB2b (SEQ ID NO: 155) ChsFATB2d (SEQ ID NO: 157) JcFATB2/SzFATB2 (SEQ ID NO: 108) CvisFATB2 (SEQ ID NO: 75) CcrFATB1 (SEQ ID NO: 190) CcrFATB1b (SEQ ID NO: 191) CcrFATB1c (SEQ ID NO: 192) 11 CwFATB4b.1 (SEQ ID NO: 121) Increase C14/C16 88.7 94.5 97 fatty acids 12 CcFATB3 (SEQ ID NO: 129) Increase C16 fatty 72.8 85 90 UcFATB3 (SEQ ID NO: 186) acids (predicted)

TABLE 2 Preferred codon usage in Prototheca strains Ala GCG 345 (0.36) Asn AAT 8 (0.04) Cys GCA 66 (0.07) Pro AAC 201 (0.96) Asp GCT 101 (0.11) Gln CCG 161 (0.29) Glu GCC 442 (0.46) Arg CCA 49 (0.09) Phe TGT 12 (0.10) Ser CCT 71 (0.13) Gly TGC 105 (0.90) Thr CCC 267 (0.49) His GAT 43 (0.12) Val CAG 226 (0.82) Ile GAC 316 (0.88) Trp CAA 48 (0.18) Lys GAG 377 (0.96) Tyr AGG 33 (0.06) Leu GAA 14 (0.04) Stop AGA 14 (0.02) Met TTT 89 (0.29) CGG 102 (0.18) TTC 216 (0.71) CGA 49 (0.08) GGG 92 (0.12) CGT 51 (0.09) GGA 56 (0.07) CGC 331 (0.57) GGT 76 (0.10) AGT 16 (0.03) GGC 559 (0.71) AGC 123 (0.22) CAT 42 (0.21) TCG 152 (0.28) CAC 154 (0.79) TCA 31 (0.06) ATA 4 (0.01) TCT 55 (0.10) ATT 30 (0.08) TCC 173 (0.31) ATC 338 (0.91) ACG 184 (0.38) AAG 284 (0.98) ACA 24 (0.05) AAA 7 (0.02) ACT 21 (0.05) TTG 26 (0.04) ACC 249 (0.52) TTA 3 (0.00) GTG 308 (0.50) CTG 447 (0.61) GTA 9 (0.01) CTA 20 (0.03) GTT 35 (0.06) CTT 45 (0.06) GTC 262 (0.43) CTC 190 (0.26) TGG 107 (1.00) ATG 191 (1.00) TAT 10 (0.05) TAC 180 (0.95) TGA/TAG/TAA

TABLE 3 Preferred codon usage in Chlorella protothecoides TTC (Phe) TAC (Tyr) TGC (Cys) TGA (Stop) TGG (Trp) CCC (Pro) CAC (His) CGC (Arg) CTG (Leu) CAG (Gln) ATC (Ile) ACC (Thr) GAC (Asp) TCC (Ser) ATG (Met) AAG (Lys) GCC (Ala) AAC (Asn) GGC (Gly) GTG (Val) GAG (Glu)

TABLE 3a Codon usage for Cuphea wrightii UUU F 0.48 19.5 (52) UCU S 0.21 19.5 (52) UAU Y 0.45 6.4 (17) UGU C 0.41 10.5 (28) UUC F 0.52 21.3 (57) UCC S 0.26 23.6 (63) UAC Y 0.55 7.9 (21) UGC C 0.59 15.0 (40) UUA L 0.07 5.2 (14) UCA S 0.18 16.8 (45) UAA * 0.33 0.7 (2) UGA * 0.33 0.7 (2) UUG L 0.19 14.6 (39) UCG S 0.11 9.7 (26) UAG * 0.33 0.7 (2) UGG W 1.00 15.4 (41) CUU L 0.27 21.0 (56) CCU P 0.48 21.7 (58) CAU H 0.60 11.2 (30) CGU R 0.09 5.6 (15) CUC L 0.22 17.2 (46) CCC P 0.16 7.1 (19) CAC H 0.40 7.5 (20) CGC R 0.13 7.9 (21) CUA L 0.13 10.1 (27) CCA P 0.21 9.7 (26) CAA Q 0.31 8.6 (23) CGA R 0.11 6.7 (18) CUG L 0.12 9.7 (26) CCG P 0.16 7.1 (19) CAG Q 0.69 19.5 (52) CGG R 0.16 9.4 (25) AUU I 0.44 22.8 (61) ACU T 0.33 16.8 (45) AAU N 0.66 31.4 (84) AGU S 0.18 16.1 (43) AUC I 0.29 15.4 (41) ACC T 0.27 13.9 (37) AAC N 0.34 16.5 (44) AGC S 0.07 6.0 (16) AUA I 0.27 13.9 (37) ACA T 0.26 13.5 (36) AAA K 0.42 21.0 (56) AGA R 0.24 14.2 (38) AUG M 1.00 28.1 (75) ACG T 0.14 7.1 (19) AAG K 0.58 29.2 (78) AGG R 0.27 16.1 (43) GUU V 0.28 19.8 (53) GCU A 0.35 31.4 (84) GAU D 0.63 35.9 (96) GGU G 0.29 26.6 (71) GUC V 0.21 15.0 (40) GCC A 0.20 18.0 (48) GAC D 0.37 21.0 (56) GGC G 0.20 18.0 (48) GUA V 0.14 10.1 (27) GCA A 0.33 29.6 (79) GAA E 0.41 18.3 (49) GGA G 0.35 31.4 (84) GUG V 0.36 25.1 (67) GCG A 0.11 9.7 (26) GAG E 0.59 26.2 (70) GGG G 0.16 14.2 (38)

TABLE 3B Codon usage for Arabidopsis UUU F 0.51 21.8 (678320) UCU S 0.28 25.2 (782818) UAU Y 0.52 14.6 (455089) UGU C 0.60 10.5 (327640) UUC F 0.49 20.7 (642407) UCC S 0.13 11.2 (348173) UAC Y 0.48 13.7 (427132) UGC C 0.40 7.2 (222769) UUA L 0.14 12.7 (394867) UCA S 0.20 18.3 (568570) UAA * 0.36 0.9 ( 29405) UGA * 0.44 1.2 (36260) UUG L 0.22 20.9 (649150) UCG S 0.10 9.3 (290158) UAG * 0.20 0.5 (16417) UGG W 1.00 12.5 (388049) CUU L 0.26 24.1 (750114) CCU P 0.38 18.7 (580962) CAU H 0.61 13.8 (428694) CGU R 0.17 9.0 (280392) CUC L 0.17 16.1 (500524) CCC P 0.11 5.3 (165252) CAC H 0.39 8.7 (271155) CGC R 0.07 3.8 (117543) CUA L 0.11 9.9 (307000) CCA P 0.33 16.1 (502101) CAA Q 0.56 19.4 (604800) CGA R 0.12 6.3 (195736) CUG L 0.11 9.8 (305822) CCG P 0.18 8.6 (268115) CAG Q 0.44 15.2 (473809) CGG R 0.09 4.9 (151572) AUU I 0.41 21.5 (668227) ACU T 0.34 17.5 (544807) AAU N 0.52 22.3 (693344) AGU S 0.16 14.0 (435738) AUC I 0.35 18.5 (576287) ACC T 0.20 10.3 (321640) AAC N 0.48 20.9 (650826) AGC S 0.13 11.3 (352568) AUA I 0.24 12.6 (391867) ACA T 0.31 15.7 (487161) AAA K 0.49 30.8 (957374) AGA R 0.35 19.0 (589788) AUG M 1.00 24.5 (762852) ACG T 0.15 7.7 (240652) AAG K 0.51 32.7 (1016176) AGG R 0.20 11.0 (340922) GUU V 0.40 27.2 (847061) GCU A 0.43 28.3 (880808) GAU D 0.68 36.6 (1139637) GGU G 0.34 22.2 (689891) GUC V 0.19 12.8 (397008) GCC A 0.16 10.3 (321500) GAC D 0.32 17.2 (535668) GGC G 0.14 9.2 (284681) GUA V 0.15 9.9 (308605) GCA A 0.27 17.5 (543180) GAA E 0.52 34.3 (1068012) GGA G 0.37 24.2 (751489) GUG V 0.26 17.4 (539873) GCG A 0.14 9.0 (280804) GAG E 0.48 32.2 (1002594) GGG G 0.16 10.2 (316620)

Host Cells

The host cell can be a single cell (e.g., microalga, bacteria, yeast) or part of a multicellular organism such as a plant or fungus. Methods for expressing Fatb genes in a plant are given in 5,850,022; 5,723,761; 5,639,790; 5,807,893; 5,455,167; 5,654,495; 5,512,482; 5,298,421; 5,667,997; and 5,344,771; 5,304,481, or can be accomplished using other techniques generally known in plant biotechnology. Engineering of oleaginous microbes including those of Chlorophyta is disclosed in WO2010/063032, WO2011,150411, and WO2012/106560 and in the examples below.

Examples of oleaginous host cells include plant cells and microbial cells having a type II fatty acid biosynthetic pathway, including plastidic oleaginous cells such as those of oleaginous algae. Specific examples of microalgal cells include heterotrophic or obligate heterotrophic microalgae of the phylum Chlorophtya, the class Trebouxiophytae, the order Chlorellales, or the family Chlorellacae. Examples of oleaginous microalgae are provided in Published PCT Patent Applications WO2008/151149, WO2010/06032, WO2011/150410, and WO2011/150411, including species of Chlorella and Prototheca, a genus comprising obligate heterotrophs. The oleaginous cells can be, for example, capable of producing 25, 30, 40, 50, 60, 70, 80, 85, or about 90% oil by cell weight, ±5%. Optionally, the oils produced can be low in DHA or EPA fatty acids. For example, the oils can comprise less than 5%, 2%, or 1% DHA and/or EPA. The above-mentioned publications also disclose methods for cultivating such cells and extracting oil, especially from microalgal cells; such methods are applicable to the cells disclosed herein and incorporated by reference for these teachings. When microalgal cells are used they can be cultivated autotrophically (unless an obligate heterotroph) or in the dark using a sugar (e.g., glucose, fructose and/or sucrose). In any of the embodiments described herein, the cells can be heterotrophic cells comprising an exogenous invertase gene so as to allow the cells to produce oil from a sucrose feedstock. Alternately, or in addition, the cells can metabolize xylose from cellulosic feedstocks. For example, the cells can be genetically engineered to express one or more xylose metabolism genes such as those encoding an active xylose transporter, a xylulose-5-phosphate transporter, a xylose isomerase, a xylulokinase, a xylitol dehydrogenase and a xylose reductase. See WO2012/154626, “GENETICALLY ENGINEERED MICROORGANISMS THAT METABOLIZE XYLOSE”, published Nov. 15, 2012.

Oils and Related Products

The oleaginous cells express one or more exogenous genes encoding fatty acid biosynthesis enzymes. As a result, some embodiments feature natural oils that were not obtainable from a non-plant or non-seed oil, or not obtainable at all.

The oleaginous cells produce a storage oil, which is primarily triacylglyceride and may be stored in storage bodies of the cell. A raw oil may be obtained from the cells by disrupting the cells and isolating the oil. WO2008/151149, WO2010/06032, WO2011/150410, and WO2011/1504 disclose heterotrophic cultivation and oil isolation techniques. For example, oil may be obtained by cultivating, drying and pressing the cells. The oils produced may be refined, bleached and deodorized (RBD) as known in the art or as described in WO2010/120939. The raw or RBD oils may be used in a variety of food, chemical, and industrial products or processes. After recovery of the oil, a valuable residual biomass remains. Uses for the residual biomass include the production of paper, plastics, absorbents, adsorbents, as animal feed, for human nutrition, or for fertilizer.

Where a fatty acid profile of a triglyceride (also referred to as a “triacylglyceride” or “TAG”) cell oil is given here, it will be understood that this refers to a nonfractionated sample of the storage oil extracted from the cell analyzed under conditions in which phospholipids have been removed or with an analysis method that is substantially insensitive to the fatty acids of the phospholipids (e.g. using chromatography and mass spectrometry). The oil may be subjected to an RBD process to remove phospholipids, free fatty acids and odors yet have only minor or negligible changes to the fatty acid profile of the triglycerides in the oil. Because the cells are oleaginous, in some cases the storage oil will constitute the bulk of all the TAGs in the cell.

The stable carbon isotope value δ13C is an expression of the ratio of 13C/12C relative to a standard (e.g. PDB, carbonite of fossil skeleton of Belemnite americana from Peedee formation of South Carolina). The stable carbon isotope value δ13C (0/00) of the oils can be related to the δ13C value of the feedstock used. In some embodiments, the oils are derived from oleaginous organisms heterotrophically grown on sugar derived from a C4 plant such as corn or sugarcane. In some embodiments the δ13C (0/00) of the oil is from −10 to −17 0/00 or from −13 to −16 0/00.

The oils produced according to the above methods in some cases are made using a microalgal host cell. As described above, the microalga can be, without limitation, fall in the classification of Chlorophyta, Trebouxiophyceae, Chlorellales, Chlorellaceae, or Chlorophyceae. It has been found that microalgae of Trebouxiophyceae can be distinguished from vegetable oils based on their sterol profiles. Oil produced by Chlorella protothecoides was found to produce sterols that appeared to be brassicasterol, ergosterol, campesterol, stigmasterol, and β-sitosterol, when detected by GC-MS. However, it is believed that all sterols produced by Chlorella have C24β stereochemistry. Thus, it is believed that the molecules detected as campesterol, stigmasterol, and β-sitosterol, are actually 22,23-dihydrobrassicasterol, proferasterol and clionasterol, respectively. Thus, the oils produced by the microalgae described above can be distinguished from plant oils by the presence of sterols with C24β stereochemistry and the absence of C24α stereochemistry in the sterols present. For example, the oils produced may contain 22,23-dihydrobrassicasterol while lacking campesterol; contain clionasterol, while lacking in β-sitosterol, and/or contain poriferasterol while lacking stigmasterol. Alternately, or in addition, the oils may contain significant amounts of Δ⁷-poriferasterol.

In one embodiment, the oils provided herein are not vegetable oils. Vegetable oils are oils extracted from plants and plant seeds. Vegetable oils can be distinguished from the non-plant oils provided herein on the basis of their oil content. A variety of methods for analyzing the oil content can be employed to determine the source of the oil or whether adulteration of an oil provided herein with an oil of a different (e.g. plant) origin has occurred. The determination can be made on the basis of one or a combination of the analytical methods. These tests include but are not limited to analysis of one or more of free fatty acids, fatty acid profile, total triacylglycerol content, diacylglycerol content, peroxide values, spectroscopic properties (e.g. UV absorption), sterol profile, sterol degradation products, antioxidants (e.g. tocopherols), pigments (e.g. chlorophyll), d13C values and sensory analysis (e.g. taste, odor, and mouth feel). Many such tests have been standardized for commercial oils such as the Codex Alimentarius standards for edible fats and oils.

Sterol profile analysis is a particularly well-known method for determining the biological source of organic matter. Campesterol, b-sitosterol, and stigamsterol are common plant sterols, with b-sitosterol being a principle plant sterol. For example, b-sitosterol was found to be in greatest abundance in an analysis of certain seed oils, approximately 64% in corn, 29% in rapeseed, 64% in sunflower, 74% in cottonseed, 26% in soybean, and 79% in olive oil (Gul et al. J. Cell and Molecular Biology 5:71-79, 2006).

Oil isolated from Prototheca moriformis strain UTEX1435 were separately clarified (CL), refined and bleached (RB), or refined, bleached and deodorized (RBD) and were tested for sterol content according to the procedure described in JAOCS vol. 60, no. 8, August 1983. Results of the analysis are shown below (units in mg/100 g):

Refined, Refined & bleached, & Sterol Crude Clarified bleached deodorized 1 Ergosterol 384 398 293 302  (56%)  (55%)  (50%)  (50%) 2 5,22-cholestadien- 14.6 18.8 14 15.2 24-methyl-3-ol (2.1%) (2.6%) (2.4%) (2.5%) (Brassicasterol) 3 24-methylcholest-5- 10.7 11.9 10.9 10.8 en-3-ol (1.6%) (1.6%) (1.8%) (1.8%) (Campesterol or 22,23- dihydro- brassicasterol) 4 5,22-cholestadien- 57.7 59.2 46.8 49.9 24-ethyl-3-ol (8.4%) (8.2%) (7.9%) (8.3%) (Stigmasterol or poriferasterol) 5 24-ethylcholest-5- 9.64 9.92 9.26 10.2 en-3-ol (β-Sitosterol (1.4%) (1.4%) (1.6%) (1.7%) or clionasterol) 6 Other sterols 209 221 216 213 Total sterols 685.64 718.82 589.96 601.1

These results show three striking features. First, ergosterol was found to be the most abundant of all the sterols, accounting for about 50% or more of the total sterols. The amount of ergosterol is greater than that of campesterol, β-sitosterol, and stigmasterol combined. Ergosterol is steroid commonly found in fungus and not commonly found in plants, and its presence particularly in significant amounts serves as a useful marker for non-plant oils. Secondly, the oil was found to contain brassicasterol. With the exception of rapeseed oil, brassicasterol is not commonly found in plant based oils. Thirdly, less than 2% β-sitosterol was found to be present. β-sitosterol is a prominent plant sterol not commonly found in microalgae, and its presence particularly in significant amounts serves as a useful marker for oils of plant origin. In summary, Prototheca moriformis strain UTEX1435 has been found to contain both significant amounts of ergosterol and only trace amounts of β-sitosterol as a percentage of total sterol content. Accordingly, the ratio of ergosterol:β-sitosterol or in combination with the presence of brassicasterol can be used to distinguish this oil from plant oils.

In some embodiments, the oil content of an oil provided herein contains, as a percentage of total sterols, less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% β-sitosterol. In other embodiments the oil is free from β-sitosterol.

In some embodiments, the oil is free from one or more of β-sitosterol, campesterol, or stigmasterol. In some embodiments the oil is free from β-sitosterol, campesterol, and stigmasterol. In some embodiments the oil is free from campesterol. In some embodiments the oil is free from stigmasterol.

In some embodiments, the oil content of an oil provided herein comprises, as a percentage of total sterols, less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% 24-ethylcholest-5-en-3-ol. In some embodiments, the 24-ethylcholest-5-en-3-ol is clionasterol. In some embodiments, the oil content of an oil provided herein comprises, as a percentage of total sterols, at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, or 10% clionasterol.

In some embodiments, the oil content of an oil provided herein contains, as a percentage of total sterols, less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% 24-methylcholest-5-en-3-ol. In some embodiments, the 24-methylcholest-5-en-3-ol is 22,23-dihydrobrassicasterol. In some embodiments, the oil content of an oil provided herein comprises, as a percentage of total sterols, at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, or 10% 22,23-dihydrobrassicasterol.

In some embodiments, the oil content of an oil provided herein contains, as a percentage of total sterols, less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% 5,22-cholestadien-24-ethyl-3-ol. In some embodiments, the 5,22-cholestadien-24-ethyl-3-ol is poriferasterol. In some embodiments, the oil content of an oil provided herein comprises, as a percentage of total sterols, at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, or 10% poriferasterol.

In some embodiments, the oil content of an oil provided herein contains ergosterol or brassicasterol or a combination of the two. In some embodiments, the oil content contains, as a percentage of total sterols, at least 5%, 10%, 20%, 25%, 35%, 40%, 45%, 50%, 55%, 60%, or 65% ergosterol. In some embodiments, the oil content contains, as a percentage of total sterols, at least 25% ergosterol. In some embodiments, the oil content contains, as a percentage of total sterols, at least 40% ergosterol. In some embodiments, the oil content contains, as a percentage of total sterols, at least 5%, 10%, 20%, 25%, 35%, 40%, 45%, 50%, 55%, 60%, or 65% of a combination of ergosterol and brassicasterol.

In some embodiments, the oil content contains, as a percentage of total sterols, at least 1%, 2%, 3%, 4% or 5% brassicasterol. In some embodiments, the oil content contains, as a percentage of total sterols less than 10%, 9%, 8%, 7%, 6%, or 5% brassicasterol.

In some embodiments the ratio of ergosterol to brassicasterol is at least 5:1, 10:1, 15:1, or 20:1.

In some embodiments, the oil content contains, as a percentage of total sterols, at least 5%, 10%, 20%, 25%, 35%, 40%, 45%, 50%, 55%, 60%, or 65% ergosterol and less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% β-sitosterol. In some embodiments, the oil content contains, as a percentage of total sterols, at least 25% ergosterol and less than 5% β-sitosterol. In some embodiments, the oil content further comprises brassicasterol.

Sterols contain from 27 to 29 carbon atoms (C27 to C29) and are found in all eukaryotes. Animals exclusively make C27 sterols as they lack the ability to further modify the C27 sterols to produce C28 and C29 sterols. Plants however are able to synthesize C28 and C29 sterols, and C28/C29 plant sterols are often referred to as phytosterols. The sterol profile of a given plant is high in C29 sterols, and the primary sterols in plants are typically the C29 sterols b-sitosterol and stigmasterol. In contrast, the sterol profile of non-plant organisms contain greater percentages of C27 and C28 sterols. For example the sterols in fungi and in many microalgae are principally C28 sterols. The sterol profile and particularly the striking predominance of C29 sterols over C28 sterols in plants has been exploited for determining the proportion of plant and marine matter in soil samples (Huang, Wen-Yen, Meinschein W. G., “Sterols as ecological indicators”; Geochimica et Cosmochimia Acta. Vol 43. pp 739-745).

In some embodiments the primary sterols in the microalgal oils provided herein are sterols other than b-sitosterol and stigmasterol. In some embodiments of the microalgal oils, C29 sterols make up less than 50%, 40%, 30%, 20%, 10%, or 5% by weight of the total sterol content.

In some embodiments the microalgal oils provided herein contain C28 sterols in excess of C29 sterols. In some embodiments of the microalgal oils, C28 sterols make up greater than 50%, 60%, 70%, 80%, 90%, or 95% by weight of the total sterol content. In some embodiments the C28 sterol is ergosterol. In some embodiments the C28 sterol is brassicasterol.

In embodiments of the present invention, oleaginous cells expressing one or more of the genes of Table 1 can produce an oil with at least 20, 40, 60 or 70% of C8, C10, C12, C14 or C16 fatty acids. In a specific embodiment, the level of myristate (C14:0) in the oil is greater than 30%.

Thus, in embodiments of the invention, there is a process for producing an oil, triglyceride, fatty acid, or derivative of any of these, comprising transforming a cell with any of the nucleic acids discussed herein. In another embodiment, the transformed cell is cultivated to produce an oil and, optionally, the oil is extracted. Oil extracted in this way can be used to produce food, oleochemicals or other products.

The oils discussed above alone or in combination are useful in the production of foods, fuels and chemicals (including plastics, foams, films, etc). The oils, triglycerides, fatty acids from the oils may be subjected to C—H activation, hydroamino methylation, methoxy-carbonation, ozonolysis, enzymatic transformations, epoxidation, methylation, dimerization, thiolation, metathesis, hydro-alkylation, lactonization, or other chemical processes.

After extracting the oil, a residual biomass may be left, which may have use as a fuel, as an animal feed, or as an ingredient in paper, plastic, or other product. For example, residual biomass from heterotrophic algae can be used in such products.

Example 1 Discovery of Novel FATB Sequences

Sequences of novel plant acyl-ACP thioesterases involved in seed-specific mid-chain (C8-C16) fatty acid biosynthesis in higher plants were isolated. Seed-specific lipid production genes were isolated through direct interrogation of RNA pools accumulating in oilseeds. Based on phylogenetic analysis, novel enzymes can be classified as members of FatB family of acyl-ACP thioesterases.

Seeds of oleaginous plants were obtained from local grocery stores or requested through USDA ARS National Plant Germplasm System (NPGS) from North Central Regional Plant Introduction Station (NCRIS) or USDA ARS North Central Soil Conservation Research Laboratory (Morris, Mich.). Dry seeds were homogenized in liquid nitrogen to powder, resuspended in cold extraction buffer containing 6-8M Urea and 3M LiCl and left on ice for a few hours to overnight at 4° C. The seed homogenate was passed through NucleoSpin Filters (Macherey-Nagel) by centrifugation at 20,000 g for 20 minutes in the refrigerated microcentrifuge (4° C.). The resulting RNA pellets were resuspended in the buffer containing 20 mM Tris HCl, pH7.5, 0.5% SDS, 100 mM NaCl, 25 mM EDTA, 2% PVPP) and RNA was subsequently extracted once with Phenol-Chloroform-Isoamyl Alcohol (25:24:1, v/v) and once with chloroform. RNA was finally precipitated with isopropyl alcohol (0.7 Vol.) in the presence of 150 mM of Na Acetate, pH5.2, washed with 80% ethanol by centrifugation, and dried. RNA samples were treated with Turbo DNAse (Lifetech) and purified further using RNeasy kits (Qiagen) following manufacturers' protocols. The resulting purified RNA samples were converted to pair-end cDNA libraries and subjected to next-generation sequencing (2×100 bp) using Illumina Hiseq 2000 platform. RNA sequence reads were assembled into corresponding seed transcriptomes using Trinity or Oases packages. Putative thioesterase-containg cDNA contigs were identified by mining transcriptomes for sequences with homology to known thioesterases. These in silico identified putative thioesterase cDNAs have been further verified by direct reverse transcription PCR analysis using seed RNA and primer pairs targeting full-length thioesterase cDNAs. The resulting amplified products were cloned and sequenced de novo to confirm authenticity of identified thioesterase genes.

To interrogate evolutionary and functional relationship between novel acyl-ACP thioesterases and the members of two existing thioesterase classes (FatA and FatB), we performed a phylogenetic analysis using published full-length (Mayer and Shanklin, 2007) and truncated (THYME database) amino acid thioesterase sequences. Novel proteins appear to group with known acyl-ACP FatB thioesterases involved in biosynthesis of C8-C16 fatty acids. Moreover, novel thioesterases appear to cluster into 3 predominant out-groups suggesting distinct functional similarity and evolutionary relatedness among members of each cluster.

The amino acid sequences of the FatB genes follow are shown in Table 4.

TABLE 4 Amino acid sequences of FatB genes: CuPSR23 FATB3 SEQ ID NO: 110 CuPSR23 FATB3b SEQ ID NO: 111 CwFATB3 SEQ ID NO: 112 CwFATB3a SEQ ID NO: 113 CwFATB3b SEQ ID NO: 114 CwFATB3c SEQ ID NO: 115 CwFATB4a SEQ ID NO: 116 CwFATB4a.1 SEQ ID NO: 117 CwFATB4a.2 SEQ ID NO: 118 CwFATB4a.3 SEQ ID NO: 119 CwFATB4b SEQ ID NO: 120 CwFATB4b.1 SEQ ID NO: 121 CwFATB5 SEQ ID NO: 122 CwFATB5a SEQ ID NO: 123 CwFATB5b SEQ ID NO: 124 CwFATB5c SEQ ID NO: 125 CwFATB5.1 SEQ ID NO: 126 CwFATB5.1a SEQ ID NO: 127 CcFATB2b SEQ ID NO: 128 CcFATB3 SEQ ID NO: 129 CcFATB3b SEQ ID NO: 130 CcFATB3c SEQ ID NO: 131 ChtFATB1a SEQ ID NO: 132 ChtFATB1a.1 SEQ ID NO: 133 ChtFATB1a.2 SEQ ID NO: 134 ChtFATB1a.3 SEQ ID NO: 135 ChtFATB1a.4 SEQ ID NO: 136 ChtFATB1b SEQ ID NO: 137 ChtFATB2b SEQ ID NO: 138 ChtFATB2a SEQ ID NO: 139 ChtFATB2c SEQ ID NO: 140 ChtFATB2d SEQ ID NO: 141 ChtFATB2e SEQ ID NO: 142 ChtFATB2f SEQ ID NO: 143 ChtFATB2g SEQ ID NO: 144 ChtFATB2h SEQ ID NO: 145 ChtFATB3a SEQ ID NO: 146 ChtFATB3b SEQ ID NO: 147 ChtFATB3c SEQ ID NO: 148 ChtFATB3d SEQ ID NO: 149 ChtFATB3e SEQ ID NO: 150 ChtFATB3f SEQ ID NO: 151 ChtFATB3g SEQ ID NO: 152 ChsFATB1 SEQ ID NO: 153 ChsFATB2 SEQ ID NO: 154 ChsFatB2b SEQ ID NO: 155 ChsFatB2c SEQ ID NO: 156 ChsFatB2d SEQ ID NO: 157 Chs FATB3 SEQ ID NO: 158 ChsFatb3b SEQ ID NO: 159 ChsFatB3c SEQ ID NO: 160 ChsFATB3d SEQ ID NO: 161 ChsFATB3e SEQ ID NO: 162 ChsFATB3f SEQ ID NO: 163 ChsFATB3g SEQ ID NO: 164 ChsFATB3h SEQ ID NO: 165 ChsFATB3i SEQ ID NO: 166 ChsFATB3j SEQ ID NO: 167

ChsFATB3j: MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKA NASARPKANGSAVSLKSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAI TTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQDGAVFRQSFSIRSYE IGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVT KMHIEVNRYPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATS VCAMMNQKTRRFSKFPYEVRQELAPHFVDSAPVIEDYQKLHKLDVKTGDS ICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYRQ ECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAG KTSNGNSIS

Example 2 Cloning and Fatty Acid Analysis of Cells Transformed with Novel FATB Genes

In the example below, we detail the effect of expressing plant oilseed transcriptome-derived, heterologous thioesterases in the UTEX1435 (web.biosci.utexas.edu/utex/) strain, Strain A.

As in Example 1, RNA was extracted from dried plant seeds and submitted for paired-end sequencing using the Illumina Hiseq 2000 platform. RNA sequence reads were assembled into corresponding seed transcriptomes using Trinity or Oases packages and putative thioesterase-containing cDNA contigs were identified by mining transcriptomes for sequences with homology to known thioesterases. These in silico identified putative thioesterase cDNAs were verified by direct reverse transcription PCR analysis using seed RNA and primer pairs targeting full-length thioesterase cDNAs. The resulting amplified products were cloned and sequenced de novo to confirm authenticity of identified thioesterase genes and to identify sequence variants arising from expression of different gene alleles or diversity of sequences within a population of seeds. The resulting amino acid sequences were subjected to phylogenetic analysis using published full-length (Mayer and Shanklin, 2007) and truncated (THYME database) FatB sequences. The thioesterases that clustered with acyl-ACP FatB thioesterases, which are involved in biosynthesis of C8-C16 fatty acids, were pursued.

Construction of Transforming Vectors Expressing Acyl-ACP FatB Thioesterases

27 putative acyl-ACP FatB thioesterases from the species Cinnamomum camphora, Cuphea hyssopifolia, Cuphea PSR23, Cuphea wrightii, Cuphea heterophylla, and Cuphea viscosissima were synthesized in a codon-optimized form to reflect Prototheca moriformis (UTEX 1435) codon usage. Of the 27 genes synthesized, 24 were identified by our transcriptome sequencing efforts and the 3 genes from Cuphea viscosissima, were from published sequences in GenBank.

Transgenic strains were generated via transformation of the base strain Strain A (Prototheca moriformis, derived from UTEX 1435 by classical mutation and screening for high oil production) with a construct encoding 1 of the 27 FatB thioesterases. The construct pSZ2760 encoding Cinnamomum camphora (Cc) FATB1b is shown as an example, but identical methods were used to generate each of the remaining 26 constructs encoding the different respective thioesterases. Construct pSZ2760 can be written as 6S:CrTUB2:ScSUC2:CvNR:PmAMT3:CcFATB1b:CvNR:6S. The sequence of the transforming DNA is provided in Table 5 (pSZ2760). The relevant restriction sites in the construct from 5′-3′, BspQ1, KpnI, AscI, MfeI, EcoRI, SpeI, XhoI, SacI, BspQ1, respectively, are indicated in lowercase, bold, and underlined. BspQ1 sites delimit the 5′ and 3′ ends of the transforming DNA. Bold, lowercase sequences at the 5′ and 3′ end of the construct represent genomic DNA from UTEX 1435 that target integration to the 6S locus via homologous recombination. Proceeding in the 5′ to 3′ direction, the selection cassette has the C. reinhardtii β-tubulin promoter driving expression of the S. cerevisiae gene SUC2 (conferring the ability to grow on sucrose) and the Chlorella vulgaris Nitrate Reductase (NR) gene 3′ UTR. The promoter is indicated by lowercase, boxed text. The initiator ATG and terminator TGA for ScSUC2 are indicated by bold, uppercase italics, while the coding region is indicated with lowercase italics. The 3′ UTR is indicated by lowercase underlined text. The spacer region between the two cassettes is indicated by upper case text. The second cassette containing the codon optimized CcFATB1b gene (Table 5; pSZ2760) from Cinnamomum camphora is driven by the Prototheca moriformis endogenous AMT3 promoter, and has the Chlorella vulgaris Nitrate Reductase (NR) gene 3′ UTR. In this cassette, the AMT3 promoter is indicated by lowercase, boxed text. The initiator ATG and terminator TGA for the CcFATB1b gene are indicated in bold, uppercase italics, while the coding region is indicated by lowercase italics and the spacer region is indicated by upper case text. The 3′ UTR is indicated by lowercase underlined text. The final construct was sequenced to ensure correct reading frame and targeting sequences.

TABLE 5 pSZ2760 Transforming construct gctcttcgccgccgccactcctgctcgagcgcgcccgcgcgtgcgccgccagcgccttggccttttcgccgcgctcgtgcgcgtcgctgatgtccatcaccag gtccatgaggtctgccttgcgccggctgagccactgcttcgtccgggcggccaagaggagcatgagggaggactcctggtccagggtcctgacgtggtcgcgg ctctgggagcgggccagcatcatctggctctgccgcaccgaggccgcctccaactggtcctccagcagccgcagtcgccgccgaccctggcagaggaagacag gtgaggggggtatgaattgtacagaacaaccacgagccttgtctaggcagaatccctaccagtcatggctttacctggatgacggcctgcgaacagctgtcca gcgaccctcgctgccgccgcttctcccgcacgcttctttccagcaccgtgatggcgcgagccagcgccgcacgctggcgctgcgcttcgccgatctgaggaca gtcggggaactctgatcagtctaaacccccttgcgcgttagtgttgccatcctttgcagaccggtgagagccgacttgttgtgcgccaccccccacaccacct cctcccagaccaattctgtcacctttttggcgaaggcatcggcctcggcctgcagagaggacagcagtgcccagccgctgggggttggcggatgcacgctcag

ctggtgcacttcacccccaacaagggctggatgaacgaccccaacggcctgtggtacgacgagaaggacgccaagtggcacctgtacttccagtacaacccga acgacaccgtctgggggacgcccttgttctggggccacgccacgtccgacgacctgaccaactgggaggaccagcccatcgccatcgccccgaagcgcaacga ctccggcgccttctccggctccatggtggtggactacaacaacacctccggcttcttcaacgacaccatcgacccgcgccagcgctgcgtggccatctggacc tacaacaccccggagtccgaggagcagtacatctcctacagcctggacggcggctacaccttcaccgagtaccagaagaaccccgtgctggccgccaactcca cccagttccgcgacccgaaggtcttctggtacgagccctcccagaagtggatcatgaccgcggccaagtcccaggactacaagatcgagatctactcctccga cgacctgaagtcctggaagctggagtccgcgttcgccaacgagggcttcctcggctaccagtacgagtgccccggcctgatcgaggtccccaccgagcaggac cccagcaagtcctactgggtgatgttcatctccatcaaccccggcgccccggccggcggctccttcaaccagtacttcgtcggcagcttcaacggcacccact tcgaggccttcgacaaccagtcccgcgtggtggacttcggcaaggactactacgccctgcagaccttcttcaacaccgacccgacctacgggagcgccctggg catcgcgtgggcctccaactgggagtactccgccttcgtgcccaccaacccctggcgctcctccatgtccctcgtgcgcaagttctccctcaacaccgagtac caggccaacccggagacggagctgatcaacctgaaggccgagccgatcctgaacatcagcaacgccggcccctggagccggttcgccaccaacaccacgttga cgaaggccaacagctacaacgtcgacctgtccaacagcaccggcaccctggagttcgagctggtgtacgccgtcaacaccacccagacgatctccaagtccgt gttcgcggacctctccctctggttcaagggcctggaggaccccgaggagtacctccgcatgggcttcgaggtgtccgcgtcctccttcttcctggaccgcggg aacagcaaggtgaagttcgtgaaggagaacccctacttcaccaaccgcatgagcgtgaacaaccagcccttcaagagcgagaacgacctgtcctactacaagg tgtacggcttgctggaccagaacatcctggagctgtacttcaacgacggcgacgtcgtgtccaccaacacctacttcatgaccaccgggaacgccctgggctc cgtgaacatgacgacgggggtggacaacctgttctacatcgacaagttccaggtgcgcgaggtcaagTGA caattggcagcagcagctcggatagtatcgaca cactctggacgctggtcgtgtgatggactgttgccgccacacttgctgccttgacctgtgaatatccctgccgcttttatcaaacagcctcagtgtgtttgat cttgtgtgtacgcgcttttgcgagttgctagctgcttgtgctatttgcgaataccacccccagcatccccttccctcgtttcatatcgcttgcatcccaaccg caacttatctacgctgtcctgctatccctcagcgctgctcctgctcctgctcactgcccctcgcacagccttggtttgggctccgcctgtattctcctggtac

agccccgctcctccgacctgcagctgcgcgccggcaacgcccagacctccctgaagatgatcaacggcaccaagttctcctacaccgagtccctgaagaagct gcccgactggtccatgctgttcgccgtgatcaccaccatcttctccgccgccgagaagcagtggaccaacctggagtggaagcccaagcccaaccccccccag ctgctggacgaccacttcggcccccacggcctggtgttccgccgcaccttcgccatccgctcctacgaggtgggccccgaccgctccacctccatcgtggccg tgatgaaccacctgcaggaggccgccctgaaccacgccaagtccgtgggcatcctgggcgacggcttcggcaccaccctggagatgtccaagcgcgacctgat ctgggtggtgaagcgcacccacgtggccgtggagcgctaccccgcctggggcgacaccgtggaggtggagtgctgggtgggcgcctccggcaacaacggccgc cgccacgacttcctggtgcgcgactgcaagaccggcgagatcctgacccgctgcacctccctgtccgtgatgatgaacacccgcacccgccgcctgtccaaga tccccgaggaggtgcgcggcgagatcggccccgccttcatcgacaacgtggccgtgaaggacgaggagatcaagaagccccagaagctgaacgactccaccgc cgactacatccagggcggcctgaccccccgctggaacgacctggacatcaaccagcacgtgaacaacatcaagtacgtggactggatcctggagaccgtgccc gactccatcttcgagtcccaccacatctcctccttcaccatcgagtaccgccgcgagtgcacccgcgactccgtgctgcagtccctgaccaccgtgtccggcg gctcctccgaggccggcctggtgtgcgagcacctgctgcagctggagggcggctccgaggtgctgcgcgccaagaccgagtggcgccccaagctgtccttccg cggcatctccgtgatccccgccgagtcctccgtgatggactacaaggaccacgacggcgactacaaggaccacgacatcgactacaaggacgacgacgacaag TGActcgaggcagcagcagctcggatagtatcgacacactctggacgctggtcgtgtgatggactgttgccgccacacttgctgccttgacctgtgaatatcc ctgccgcttttatcaaacagcctcagtgtgtttgatcttgtgtgtacgcgcttttgcgagttgctagctgcttgtgctatttgcgaataccacccccagcatc cccttccctcgtttcatatcgcttgcatcccaaccgcaacttatctacgctgtcctgctatccctcagcgctgctcctgctcctgctcactgcccctcgcaca gccttggtttgggctccgcctgtattctcctggtactgcaacctgtaaaccagcactgcaatgctgatgcacgggaagtagtgggatgggaacacaaatggaA AGCTGTATAGGGATAACAGGGTAATgagctcttgttttccagaaggagttgctccttgagcctttcattctcagcctcgataacctccaaagccgctctaatt gtggagggggttcgaatttaaaagcttggaatgttggttcgtgcgtctggaacaagcccagacttgttgctcactgggaaaaggaccatcagctccaaaaaac ttgccgctcaaaccgcgtacctctgctttcgcgcaatctgccctgttgaaatcgccaccacattcatattgtgacgcttgagcagtctgtaattgcctcagaa tgtggaatcatctgccccctgtgcgagcccatgccaggcatgtcgcgggcgaggacacccgccactcgtacagcagaccattatgctacctcacaatagttca taacagtgaccatatttctcgaagctccccaacgagcacctccatgctctgagtggccaccccccggccctggtgcttgcggagggcaggtcaaccggcatgg ggctaccgaaatccccgaccggatcccaccacccccgcgatgggaagaatctctccccgggatgtgggcccaccaccagcacaacctgctggcccaggcgagc gtcaaaccataccacacaaatatccttggcatcggccctgaattccttctgccgctctgctacccggtgcttctgtccgaagcaggggttgctagggatcgct ccgagtccgcaaacccttgtcgcgtggcggggcttgttcgagcttgaagagc

Constructs encoding the identified heterologous FatB genes, such as CcFATB1b from pSZ2760 in Table 6, were transformed into Strain A, and selected for the ability to grow on sucrose. Transformations, cell culture, lipid production and fatty acid analysis were all carried out as previously described. After cultivating on sucrose under low nitrogen conditions to accumulate oil, fatty acid profiles were determined by FAME-GC. The top performer from each transformation, as judged by the ability to produce the highest level of midchain fatty acids, is shown in Table 4.

TABLE 6 Alteration of Fatty Acid Profiles in S3150 upon Expression of Heterologous FatB Thioesterases FA profile of top performer from each transformation (%; primary lipid in Strain A background) Species Gene Name SZ Plasmid Strain C8:0 C10:0 C12:0 C14:0 C16:0 C18:0 C18:1 C18:2 C18:3α Cinnamomum CcFATB1b pSZ2760 A; T526; 0 0 1 15 26 2 46 9 1 camphora D1670-13 Cinnamomum CcFATB4 pSZ2756 A; T525; 0 1 33 4 7 2 41 10 1 camphora D1666-31 Cinnamomum CcFATB3 pSZ2755 A; T525; 0 0 0 3 44 3 41 8 0 camphora D1665-4 Cuphea ChsFATB1 pSZ2778 A; T535; 0 0 0 2 22 4 63 8 1 hyssopifolia D1689-30 Cuphea ChsFATB2 pSZ2796 A; T537; 0 0 0 6 53 3 32 6 0 hyssopifolia D1700-46 Cuphea ChsFATB2b pSZ2792 A; T537; 0 0 0 5 26 2 56 9 1 hyssopifolia D1696-9 Cuphea ChsFATB3 pSZ2797 A; T537; 0 0 8 34 27 2 24 5 1 hyssopifolia D1701-48 Cuphea ChsFATB3b pSZ2795 A; T537; 0 0 7 29 27 1 28 6 1 hyssopifolia D1699-1 Cuphea PSR23 CuPSR23FATB3 pSZ2793 A; T537; 0 1 0 2 24 3 61 8 1 D1697-13 Cuphea CwFATB3 pSZ2751 A; T525; 0 2 17 9 19 2 41 8 1 wrightii D1661-22 Cuphea CwFATB4a pSZ2752 A; T525; 0 0 0 4 48 3 36 7 1 wrightii D1662-30 Cuphea CwFATB4b pSZ2753 A; T525; 0 0 0 5 52 3 32 6 1 wrightii D1663-29 Cuphea CwFATB5 pSZ2754 A; T525; 0 0 0 3 27 3 57 7 1 wrightii D1664-39 Cuphea ChtFATB1a pSZ2757 A; T525; 0 0 5 18 27 2 39 7 1 heterophylla D1667-19 Cuphea ChtFATB1b pSZ2773 A; T535; 0 0 2 7 27 3 53 8 1 heterophylla D1685-29 Cuphea ChtFATB2b pSZ2780 A; T535; 0 0 0 2 25 3 61 8 1 heterophylla D1691-8 Cuphea ChtFATB2a pSZ2774 A; T537; 0 0 0 2 27 3 59 6 0 heterophylla D1702-24 Cuphea ChtFATB2c pSZ2758 A; T525; 0 0 3 2 23 3 58 7 1 heterophylla D1668-22 Cuphea ChtFATB2d pSZ2759 A; T526; 0 0 4 4 23 3 54 9 1 heterophylla D1669-19 Cuphea ChtFATB2e pSZ2775 A; T535; 0 1 2 3 24 3 57 8 1 heterophylla D1686-23 Cuphea ChtFATB2f pSZ2777 A; T535; 0 0 0 2 28 3 57 8 1 heterophylla D1688-33 Cuphea ChtFATB2g pSZ2794 A; T537; 0 0 0 2 22 3 62 9 1 heterophylla D1698-19 Cuphea ChtFATB3a pSZ2776 A; T535; 0 0 0 5 47 4 37 7 1 heterophylla D1687-23 Cuphea ChtFATB3b pSZ2779 A; T535; 0 0 0 6 49 5 32 7 0 heterophylla D1690-31 Cuphea CvisFATB1 pSZ2810 A; T540; 0 1 0 2 24 3 60 8 0 viscosissima D1711-30 Cuphea CvisFATB2 pSZ2817 A; T547; 0 0 0 4 51 2 36 6 0 viscosissima D1718-1 Cuphea CvisFATB3 pSZ2791 A; T537; 0 0 0 8 28 2 52 8 1 viscosissima D1695-1 A (parent 0 0 0 2 28 3 58 7 0 strain):

Many of the acyl-ACP FatB thioesterases were found to exhibit midchain activity when expressed in Prototheca moriformis. For example, expression of CcFATB1b causes an increase in myristate levels from 2% of total fatty acids in the parent, Strain A, to ˜15% in the D1670-13 primary transformant. Other examples include CcFATB4, which exhibits an increase in laurate levels from 0% in Strain A to ˜33%, and ChsFATB3, which exhibits an increase in myristate levels to ˜34%. Although some of the acyl-ACP thioesterases did not exhibit dramatic effects on midchain levels in the current incarnation, efforts will likely develop to optimize some of these constructs.

Sequences of the Heterologous Acyl-ACP Thioesterases Identified and Transformed into P. moriformis (UTEX 1435)

A complete listing of relevant sequences for the transforming constructs, such as the deduced amino acid sequence of the encoded acyl-ACP thioesterase, the native CDS coding sequence, the Prototheca moriformis codon-optimized coding sequence, and the nature of the sequence variants examined, is provided as SEQ ID NOS: 1-78.

Example 3 Discovery and Cloning of Additional FATB Genes

Additional FATB genes were obtained from seeds as described above. The species and number of FatB genes identified were:

Novel FatB Accession Thioesterase Species Number Genes Cuphea calcarata 534665 1 Cuphea painteri 288248 1 Cuphea hookeriana 534896 1 Cuphea avigera var. Ames 1 pulcherrima 17868 Cuphea paucipetala 534877 1 Cuphea procumbens 534881 3 Cuphea ignea 534773 1

The thioesterases that clustered with acyl-ACP FatB thioesterases, which are involved in biosynthesis of C8-C16 fatty acids, were pursued. The native, putative plastid-targeting transit peptide sequence is indicated by underlining.

Construction of Transforming Vectors Expressing Acyl-ACP FatB Thioesterases. The nine putative Acyl-ACP FatB Thioesterases from the species Cuphea calcarata, Cuphea painter, Cuphea hookeriana, Cuphea avigera var. pulcherrima, Cuphea paucipetala, Cuphea procumbens, and Cuphea ignea were synthesized in a codon-optimized form to reflect UTEX 1435 codon usage. In contrast to the previous example, the new Acyl-ACP FatB thioesterases were synthesized with a modified transit peptide from Chlorella protothecoides (Cp) in place of the native transit peptide. The modified transit peptide derived from the CpSAD1 gene, “CpSAD1tp_trimmed”, was synthesized as an in-frame, N-terminal fusion to the FatB acyl-ACP thioesterases in place of the native transit peptide; the resulting sequences are listed below. The novel FatB genes were cloned into Prototheca moriformis as described above. Constructs encoding heterologous FatB genes were transformed into strain S6165 (a descendant of S3150/Strain A) and selected for the ability to grow on sucrose. Transformations, cell culture, lipid production and fatty acid analysis were all carried out as previously described. The results for the nine novel FatB acyl-ACP thioesterases are displayed in the table immediately below.

FA profile of top performer from each transformation (%; primary lipid) Species Gene Name SZ Plasmid Strain C8:0 C10:0 C12:0 C14:0 C16:0 C18:0 C18:1 C18:2 C18:3α Cuphea CcalcFATB1 pSZ3764 S6165; T778; 0 1 12 18 29 2 29 5 1 calcarata D2508-26 Cuphea CpaiFATB1 pSZ3838 S6165; T841; 8 17 1 2 18 2 43 6 1 painteri D2796-22 Cuphea ChookFATB4 pSZ3837 S6165; T788; 0 0 0 2 32 2 54 7 1 hookeriana D2552-18 Cuphea CaFATB1 pSZ4084 S6165; T841; 22 9 0 2 32 2 54 7 1 avigera var. pulcherrima D2800-7 Cuphea CpauFATB1 pSZ3762 S6165; T778; 0 9 1 3 28 2 47 7 1 paucipetala D2506-46 Cuphea CprocFATB1 pSZ3929 S6165; T814; 0 5 1 3 30 2 50 7 1 procumbens D2675-3 Cuphea CprocFATB2 pSZ3839 S6165; T788; 0 0 0 2 32 3 55 6 1 procumbens D2553-2 Cupheo CprocFATB3 pSZ3763 S6165; T778; 0 3 1 2 28 3 54 6 1 procumbens D2507-29 Cuphea ignea CigneaFATB1 pSZ3930 S6165; T814; 0 8 1 4 24 2 51 8 1 D2676-34 S6165: 0 0 0 2 29 3 58 6 1 (parent strain)

Of particular note are: CpaiFATB1, which exhibits 17% C10:0 and 8% C8:0 fatty acid levels; CpauFATB1, which exhibits 9% C10:0 and 1% C12:0 fatty acid levels; CigneaFATB1, which exhibits 8% C10:0 and 1% C12:0 fatty acid levels; Cca1cFATB1, which exhibits 18% C14:0 and 12% C12:0 levels; and CaFATB1, which exhibits 22% C8:0 and 9% C10:0 fatty acid levels.

CaFATB1, which exhibits high C8:0 and C10:0 levels, is of particular interest. CaFATB1 arose from two separate contigs that were assembled from the Cupha avigera var. pulcherrima transcriptome, S17_Cavig_trinity_(—)7406 and S17_Cavig_trinity_(—)7407. Although the two partial contigs exhibit only 17 nucleotides of overlap, we were able to assemble a putative full length transcript encoding CaFATB1 from the two contigs and then subsequently confirm the existence of the full-length transcript by direct reverse transcription PCR analysis using seed RNA and primer pairs targeting the full-length CaFATB1 thioesterase cDNA. Tjellstrom et al. (2013) discloses the expression of a newly identified fatty acyl-ACP thioesterase from Cuphea pulcherrima that they named “CpuFATB3” (Genbank accession number KC675178). The coding sequence of CpuFATB3 is 100% identical to the CaFATB1 gene we identified and contains one nucleotide difference in the RNA sequence outside the predicted coding region. Tjellstrom et al. (2013) showed that CpuFATB3 produces an average of 4.8% C8:0 when expressed in Arabidopsis, and further requires deletion of two acyl-ACP synthetases, AAE15/16, to produce an average of 9.2% C8:0 with a maximum level of ˜12% C8.0. The CaFATB1 gene we identified was codon-optimized for expression in UTEX1435 and generated as a CpSAD1tp-trimmed transit peptide fusion before introduction into S6165. The CpSAD1tp_trimmed:CaFATB1 gene produces an average C8:0 level of 14% and a maximum level of 22% C8:0 without requiring the deletion of endogenous acyl-ACP synthetases.

TABLE 7 Amino Acid Sequences of Additional Novel FatB Acyl-ACP Thioesterases. In the appended sequence listings, the native, putative plastid-targeting transit peptide sequence is underlined: FatB Sequence ID NO: CcalcFATB1 (Cuphea calcarata FATB1) SEQ ID NO: 168 ChookFATB4 (Cuphea hookeriana FATB4) SEQ ID NO: 169 CaFATB1 (Cuphea avigera var. pulcherrima FATB1) SEQ ID NO: 170 CpauFATB1 (Cuphea paucipetala FATB1) SEQ ID NO: 171 CprocFATB1 (Cuphea procumbens FATB1) SEQ ID NO: 172 CprocFATB2 (Cuphea procumbens FATB2) SEQ ID NO: 173 CprocFATB3 (Cuphea procumbens FATB3) SEQ ID NO: 174 CigneaFATB1 (Cuphea ignea FATB1) SEQ ID NO: 175 CcalcFATB1 (Cuphea calcarata FATB1) SEQ ID NO: 176 ChookFATB4 (Cuphea hookeriana FATB4) SEQ ID NO: 177 CaFATB1 (Cuphea avigera var. pulcherrima FATB1) SEQ ID NO: 178 CpauFATB1 (Cuphea paucipetala FATB1) SEQ ID NO: 179 CprocFATB1 ( Cuphea procumbens  FATB1) SEQ ID NO: 180 CprocFATB2 (Cuphea procumbens FATB2) SEQ ID NO: 181 CprocFATB3 (Cuphea procumbens FATB3) SEQ ID NO: 182 CigneaFATB1 (Cuphea ignea FATB1) SEQ ID NO: 183

Example 4 FATB Consensus Sequences: Discovery, Cloning and Fatty Acid Profiles

In the course of testing several new putative midchain FatB thioesterases in UTEX1435, 53150 (Strain A above), we identified several thioesterases with increased C10:0 and C16:0 activity above the background midchain levels found in the strain. We reasoned that a consensus sequence could be obtained for an idealized C10:0 thioesterase and C16:0 thioesterase from aligning the best-performing C10:0 and C16:0 thioesterases. A consensus C10:0 specific thioesterase sequence was generated using the C. palustris FatB1 (CpFATB1), C. PSR23FatB3 (CuPSR23FATB3), C. viscosissima FatB1 (CvisFATB1), C. glossostoma FatB1 (CgFATB1), and C. carthagenensis FatB2 (CcrFATB2) sequences as inputs resulting in a C10:0 specific consensus sequence termed JcFATB1/SzFATB1. A consensus C16:0 specific thioesterase sequence was generated using the C. heterophylla FatB3a (ChtFATB3a), C. carthagenensis FatB1 (CcrFATB1), C. viscosissima FatB2 (CvisFATB2), C. hookeriana FatB1 (ChFATB1; AAC48990), C. hyssopifolia FatB2 (ChsFATB2), C. calophylla FatB2 (Cca1FATB2; ABB71581), C. hookeriana FatB1-1 (ChFATB1-1; AAC72882), C. lanceolata FatB1 (C1FATB1; CAC19933), and C. wrightii FatB4a (CwFATB4a) sequences as inputs resulting in a C16:0 specific consensus sequence termed JcFATB2/SzFATB2. The resulting consensus sequences were synthesized, cloned into a vector identical to that used to test other FatB thioesterases, and introduced into S3150 as described above. The consensus amino acid sequences are given as SEQ ID NOs. 106 and 107; the nucleic acid sequences were based on these amino acid sequences using codon optimization for Prototheca moriformis. The transformants were selected, cultivated and the oil was extracted and analyzed by FAME-GC-FID. The fatty acid profiles obtained are given in the table below.

FA profile of top performer from each transformation Gene SZ (%; primary lipid) Species Name Plasmid Strain C8:0 C10:0 C12:0 C14:0 C16:0 C18:0 C18:1 C18:2 C18:3α Consensus JcFATB1 pSZ3187 S3150; 0 2 0 2 26 3 57 8 1 Sequence 1 T617; D1930-18 Consensus JcFATB2 pSZ3100 S3150; 0 0 0 6 54 3 29 6 0 Sequence 2 T600; D1872-17 S3150 0 0 0 2 28 3 58 7 0 (parent strain):

Example 5 Clade Analysis

Various novel FATB thioesterases were clustered according to a neighbor joining algorithm. These were found to form twelve clades as listed in Table 1a. Putative function was assigned based on expression in Prototheca as described above.

The described embodiments of the invention are intended to be merely exemplary and numerous variations and modifications will be apparent to those skilled in the art. All such variations and modifications are intended to be within the scope of the present invention.

Sequence Listing SEQ ID NO 1: Cinnamomum camphora (Cc) FATB1b variant M25L, M322R, ΔT367-D368 amino acid  sequence MATTSLASAFCSMKAVMLARDGRGLKPRSSDLQLRAGNAQTSLKMINGTKFSYTESLKKLPDWSMLFAVI TTIFSAAEKQWTNLEWKPKPNPPQLLDDHFGPHGLVFRRTFAIRSYEVGPDRSTSIVAVMNHLQEAALNHA KSVGILGDGFGTTLEMSKRDLIWVVKRTHVAVERYPAWGDTVEVECWVGASGNNGRRHDFLVRDCKTG EILTRCTSLSVMMNTRTRRLSKIPEEVRGEIGPAFIDNVAVKDEEIKKPQKLNDSTADYIQGGLTPRWNDLDI NQHVNNIKYVDWILETVPDSIFESHHISSFTIEYRRECTRDSVLQSLTTVSGGSSEAGLVCEHLLQLEGGSEV LRAKTEWRPKLSFRGISVIPAESSV* SEQ ID NO 2: Cinnamomum camphora (Cc) FATB1b variant M25L, M322R, ΔT367-D368 coding  DNA sequence TTAGCTTCTGCTTTCTGCTCGATGAAAGCTGTAATGTTGGCTCGTGATGGCAGGGGCTTGAAACCCAGG AGCAGTGATTTGCAGCTGAGGGCGGGAAATGCACAAACCTCTTTGAAGATGATCAATGGGACCAAGTT CAGTTACACAGAGAGCTTGAAAAAGTTGCCTGACTGGAGCATGCTCTTTGCAGTGATCACGACCATCT TTTCGGCTGCTGAGAAGCAGTGGACCAATCTAGAGTGGAAGCCGAAGCCGAATCCACCCCAGTTGCTT GATGACCATTTTGGGCCGCATGGGTTAGTTTTCAGGCGCACCTTTGCCATCAGATCGTATGAGGTGGG ACCTGACCGCTCCACATCTATAGTGGCTGTTATGAATCACTTGCAGGAGGCTGCACTTAATCATGCGA AGAGTGTGGGAATTCTAGGAGATGGATTCGGTACGACGCTAGAGATGAGTAAGAGAGATCTGATATG GGTTGTGAAACGCACGCATGTTGCTGTGGAACGGTACCCTGCTTGGGGTGATACTGTTGAAGTAGAGT GCTGGGTTGGTGCATCGGGAAATAATGGCAGGCGCCATGATTTCCTTGTCCGGGACTGCAAAACAGGC GAAATTCTTACAAGATGTACCAGTCTTTCGGTGATGATGAATACAAGGACAAGGAGGTTGTCCAAAAT CCCTGAAGAAGTTAGAGGGGAGATAGGGCCTGCATTCATTGATAATGTGGCTGTCAAGGACGAGGAA ATTAAGAAACCACAGAAGCTCAATGACAGCACTGCAGATTACATCCAAGGAGGATTGACTCCTCGATG GAATGATTTGGATATCAATCAGCACGTTAACAACATCAAATACGTTGACTGGATTCTTGAGACTGTCC CAGACTCAATCTTTGAGAGTCATCATATTTCCAGCTTCACTATTGAATACAGGAGAGAGTGCACGAGG GATAGCGTGCTGCAGTCCCTGACCACTGTCTCCGGTGGCTCGTCGGAAGCTGGGTTAGTGTGCGAGCA CTTGCTCCAGCTTGAAGGTGGGTCTGAGGTATTGAGGGCAAAAACAGAGTGGAGGCCTAAGCTTAGTT TCAGAGGGATTAGTGTGATACCCGCAGAATCGAGTGTCTAA SEQ ID NO 3: Cinnamomum camphora (Cc) FATB1b variant M25L, M322R, ΔT367-D368 coding  DNA sequence codon optimized for Prototheca moriformis TTAGCTTCTGCTTTCTGCTCGATGAAAGCTGTAATGTTGGCTCGTGATGGCAGGGGCTTGAAACCCAGG AGCAGTGATTTGCAGCTGAGGGCGGGAAATGCACAAACCTCTTTGAAGATGATCAATGGGACCAAGTT CAGTTACACAGAGAGCTTGAAAAAGTTGCCTGACTGGAGCATGCTCTTTGCAGTGATCACGACCATCT TTTCGGCTGCTGAGAAGCAGTGGACCAATCTAGAGTGGAAGCCGAAGCCGAATCCACCCCAGTTGCTT GATGACCATTTTGGGCCGCATGGGTTAGTTTTCAGGCGCACCTTTGCCATCAGATCGTATGAGGTGGG ACCTGACCGCTCCACATCTATAGTGGCTGTTATGAATCACTTGCAGGAGGCTGCACTTAATCATGCGA AGAGTGTGGGAATTCTAGGAGATGGATTCGGTACGACGCTAGAGATGAGTAAGAGAGATCTGATATG GGTTGTGAAACGCACGCATGTTGCTGTGGAACGGTACCCTGCTTGGGGTGATACTGTTGAAGTAGAGT GCTGGGTTGGTGCATCGGGAAATAATGGCAGGCGCCATGATTTCCTTGTCCGGGACTGCAAAACAGGC GAAATTCTTACAAGATGTACCAGTCTTTCGGTGATGATGAATACAAGGACAAGGAGGTTGTCCAAAAT CCCTGAAGAAGTTAGAGGGGAGATAGGGCCTGCATTCATTGATAATGTGGCTGTCAAGGACGAGGAA ATTAAGAAACCACAGAAGCTCAATGACAGCACTGCAGATTACATCCAAGGAGGATTGACTCCTCGATG GAATGATTTGGATATCAATCAGCACGTTAACAACATCAAATACGTTGACTGGATTCTTGAGACTGTCC CAGACTCAATCTTTGAGAGTCATCATATTTCCAGCTTCACTATTGAATACAGGAGAGAGTGCACGAGG GATAGCGTGCTGCAGTCCCTGACCACTGTCTCCGGTGGCTCGTCGGAAGCTGGGTTAGTGTGCGAGCA CTTGCTCCAGCTTGAAGGTGGGTCTGAGGTATTGAGGGCAAAAACAGAGTGGAGGCCTAAGCTTAGTT TCAGAGGGATTAGTGTGATACCCGCAGAATCGAGTGTCTAA SEQ ID NO: 4 Cinnamomum camphora (Cc) FATB4 amino acid sequence MVTTSLASAYFSMKAVMLAPDGRGIKPRSSGLQVRAGNERNSCKVINGTKVKDTEGLKGCSTLQGQSML DDHFGLHGLVFRRTFAIRCYEVGPDRSTSIMAVMNHLQEAARNHAESLGLLGDGFGETLEMSKRDLIWVV RRTHVAVERYPAWGDTVEVEAWVGASGNTGMRRDFLVRDCKTGHILTRCTSVSVMMNMRTRRLSKIPQE VRAEIDPLFIEKVAVKEGEIKKLQKLNDSTADYIQGGWTPRWNDLDVNQHVNNIIYVGWIFKSVPDSISENH HLSSITLEYRRECTRGNKLQSLTTVCGGSSEAGIICEHLLQLEDGSEVLRARTEWRPKHTDSFQGISERFPQQ EPHK SEQ ID NO: 5 Cinnamomum camphora (Cc) FATB4 coding DNA sequence ATGGTCACCACCTCTTTAGCTTCCGCTTACTTCTCGATGAAAGCTGTAATGTTGGCTCCTGACGGCAGG GGCATAAAGCCCAGGAGCAGTGGTTTGCAGGTGAGGGCGGGAAATGAACGAAACTCTTGCAAGGTGA TCAATGGGACCAAGGTCAAAGACACGGAGGGCTTGAAAGGGTGCAGCACGTTGCAAGGCCAGAGCAT GCTTGATGACCATTTTGGTCTGCATGGGCTAGTTTTCAGGCGCACCTTTGCAATCAGATGCTATGAGGT TGGACCTGACCGCTCCACATCCATAATGGCTGTTATGAATCACTTGCAGGAAGCTGCACGTAATCATG CGGAGAGTCTGGGACTTCTAGGAGATGGATTCGGTGAGACACTGGAGATGAGTAAGAGAGATCTGAT ATGGGTTGTGAGACGCACGCATGTTGCTGTGGAACGGTACCCTGCTTGGGGCGATACTGTTGAAGTCG AGGCCTGGGTGGGTGCATCAGGTAACACTGGCATGCGCCGCGATTTCCTTGTCCGCGACTGCAAAACT GGCCACATTCTTACAAGATGTACCAGTGTTTCAGTGATGATGAATATGAGGACAAGGAGATTGTCCAA AATTCCCCAAGAAGTTAGAGCGGAGATTGACCCTCTTTTCATTGAAAAGGTTGCTGTCAAGGAAGGGG AAATTAAAAAATTACAGAAGTTGAATGATAGCACTGCAGATTACATTCAAGGGGGTTGGACTCCTCGA TGGAATGATTTGGATGTCAATCAGCACGTGAACAATATCATATACGTTGGCTGGATTTTTAAGAGCGT CCCAGACTCTATCTCTGAGAATCATCATCTTTCTAGCATCACTCTCGAATACAGGAGAGAGTGCACAA GGGGCAACAAGCTGCAGTCCCTGACCACTGTTTGTGGTGGCTCGTCGGAAGCTGGGATCATATGTGAG CACCTACTCCAGCTTGAGGATGGGTCTGAGGTTTTGAGGGCAAGAACAGAGTGGAGGCCCAAGCACA CCGATAGTTTCCAAGGCATTAGTGAGAGATTCCCGCAGCAAGAACCGCATAAGTAA SEQ ID NO: 6 Cinnamomum camphora (Cc) FATB4 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGACCACCTCCCTGGCCTCCGCCTACTTCTCCATGAAGGCCGTGATGCTGGCCCCCGACGGCCGC GGCATCAAGCCCCGCTCCTCCGGCCTGCAGGTGCGCGCCGGCAACGAGCGCAACTCCTGCAAGGTGAT CAACGGCACCAAGGTGAAGGACACCGAGGGCCTGAAGGGCTGCTCCACCCTGCAGGGCCAGTCCATG CTGGACGACCACTTCGGCCTGCACGGCCTGGTGTTCCGCCGCACCTTCGCCATCCGCTGCTACGAGGTG GGCCCCGACCGCTCCACCTCCATCATGGCCGTGATGAACCACCTGCAGGAGGCCGCCCGCAACCACGC CGAGTCCCTGGGCCTGCTGGGCGACGGCTTCGGCGAGACCCTGGAGATGTCCAAGCGCGACCTGATCT GGGTGGTGCGCCGCACCCACGTGGCCGTGGAGCGCTACCCCGCCTGGGGCGACACCGTGGAGGTGGA GGCCTGGGTGGGCGCCTCCGGCAACACCGGCATGCGCCGCGACTTCCTGGTGCGCGACTGCAAGACCG GCCACATCCTGACCCGCTGCACCTCCGTGTCCGTGATGATGAACATGCGCACCCGCCGCCTGTCCAAG ATCCCCCAGGAGGTGCGCGCCGAGATCGACCCCCTGTTCATCGAGAAGGTGGCCGTGAAGGAGGGCG AGATCAAGAAGCTGCAGAAGCTGAACGACTCCACCGCCGACTACATCCAGGGCGGCTGGACCCCCCG CTGGAACGACCTGGACGTGAACCAGCACGTGAACAACATCATCTACGTGGGCTGGATCTTCAAGTCCG TGCCCGACTCCATCTCCGAGAACCACCACCTGTCCTCCATCACCCTGGAGTACCGCCGCGAGTGCACC CGCGGCAACAAGCTGCAGTCCCTGACCACCGTGTGCGGCGGCTCCTCCGAGGCCGGCATCATCTGCGA GCACCTGCTGCAGCTGGAGGACGGCTCCGAGGTGCTGCGCGCCCGCACCGAGTGGCGCCCCAAGCAC ACCGACTCCTTCCAGGGCATCTCCGAGCGCTTCCCCCAGCAGGAGCCCCACAAGTGA SEQ ID NO: 7 Cinnamomum camphora (Cc) FATB3 amino acid sequence MVATAAASAFFPVGAPATSSATSAKASMMPDNLDARGIKPKPASSSGLQVKANAHASPKINGSKVSTDTL KGEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDGLIFRQH FAIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDRYPAWG DIVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKLPEEVRGEIGPYFIEDVAII EEDNRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNVKYIGWILESAPGSILESHELSCMTLEYRRECG KDSVLQSMTAVSGGGSAAGGSPESSVECDHLLQLESGPEVVRGRTEWRPKSANNSRSILEMPAESL SEQ ID NO: 8 Cinnamomum camphora (Cc) FATB3 coding DNA sequence ATGGTTGCCACCGCTGCTGCTTCTGCTTTCTTCCCGGTCGGTGCTCCGGCTACGTCATCTGCAACTTCAG CCAAAGCGTCGATGATGCCTGATAATTTGGATGCCAGAGGCATCAAACCGAAGCCGGCTTCGTCCAGC GGCTTGCAGGTTAAGGCAAATGCCCATGCCTCTCCCAAGATTAATGGTTCCAAGGTGAGCACGGATAC CTTGAAGGGGGAAGACACCTTAACTTCCTCGCCCGCCCCACGGACCTTTATCAACCAATTGCCTGACT GGAGCATGTTCCTTGCTGCCATCACAACTATTTTCTTGGCTGCCGAGAAGCAGTGGACGAATCTCGACT GGAAGCCCAGAAGACCCGACATGCTTGCTGACCCGTTTGGCATCGGGAGGTTTATGCAGGATGGGCTG ATTTTCAGGCAGCACTTTGCAATCAGATCTTATGAGATTGGGGCTGATAGAACGGCGTCTATAGAGAC TTTAATGAATCACTTGCAGGAGACTGCACTTAATCATGTGAGGAGTGCTGGACTCCTAGGTGATGGAT TTGGTGCGACACCTGAGATGAGTAGAAGAGATCTGATATGGGTTGTAACACGTATGCAGGTTCTTGTG GACCGCTACCCTGCTTGGGGTGATATTGTTGAAGTAGAGACCTGGGTTGGTGCATCTGGAAAAAATGG TATGCGCCGTGATTGGCTTGTTCGGGACAGCCAAACTGGTGAAATTCTCACACGAGCTACCAGTGTTT GGGTGATGATGAATAAACGGACAAGGCGATTGTCCAAACTTCCTGAAGAAGTTAGAGGGGAAATAGG GCCTTATTTTATAGAAGATGTTGCTATCATAGAGGAGGACAACAGGAAACTACAGAAGCTCAATGAAA ACACTGCTGATAATGTTCGAAGGGGTTTGACTCCTCGCTGGAGTGATCTGGATGTTAATCAGCATGTG AACAATGTCAAATACATTGGTTGGATTCTTGAGAGTGCACCAGGATCCATCTTGGAGAGTCATGAGCT TTCCTGCATGACCCTTGAATACAGGAGAGAATGTGGGAAGGACAGTGTGCTGCAGTCAATGACTGCTG TCTCTGGTGGAGGCAGTGCAGCAGGTGGCTCACCAGAATCTAGCGTTGAGTGTGACCACTTGCTCCAG CTAGAGAGTGGGCCTGAAGTTGTGAGGGGAAGAACCGAGTGGAGGCCCAAGAGTGCTAATAACTCGA GGAGCATCCTGGAGATGCCGGCCGAGAGC SEQ ID NO: 9 Cinnamomum camphora (Cc) FATB4 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCACCGCCGCCGCCTCCGCCTTCTTCCCCGTGGGCGCCCCCGCCACCTCCTCCGCCACCTCC GCCAAGGCCTCCATGATGCCCGACAACCTGGACGCCCGCGGCATCAAGCCCAAGCCCGCCTCCTCCTC CGGCCTGCAGGTGAAGGCCAACGCCCACGCCTCCCCCAAGATCAACGGCTCCAAGGTGTCCACCGACA CCCTGAAGGGCGAGGACACCCTGACCTCCTCCCCCGCCCCCCGCACCTTCATCAACCAGCTGCCCGAC TGGTCCATGTTCCTGGCCGCCATCACCACCATCTTCCTGGCCGCCGAGAAGCAGTGGACCAACCTGGA CTGGAAGCCCCGCCGCCCCGACATGCTGGCCGACCCCTTCGGCATCGGCCGCTTCATGCAGGACGGCC TGATCTTCCGCCAGCACTTCGCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAG ACCCTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGCGCTCCGCCGGCCTGCTGGGCGACGG CTTCGGCGCCACCCCCGAGATGTCCCGCCGCGACCTGATCTGGGTGGTGACCCGCATGCAGGTGCTGG TGGACCGCTACCCCGCCTGGGGCGACATCGTGGAGGTGGAGACCTGGGTGGGCGCCTCCGGCAAGAA CGGCATGCGCCGCGACTGGCTGGTGCGCGACTCCCAGACCGGCGAGATCCTGACCCGCGCCACCTCCG TGTGGGTGATGATGAACAAGCGCACCCGCCGCCTGTCCAAGCTGCCCGAGGAGGTGCGCGGCGAGAT CGGCCCCTACTTCATCGAGGACGTGGCCATCATCGAGGAGGACAACCGCAAGCTGCAGAAGCTGAAC GAGAACACCGCCGACAACGTGCGCCGCGGCCTGACCCCCCGCTGGTCCGACCTGGACGTGAACCAGC ACGTGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCGCCCCCGGCTCCATCCTGGAGTCCCAC GAGCTGTCCTGCATGACCCTGGAGTACCGCCGCGAGTGCGGCAAGGACTCCGTGCTGCAGTCCATGAC CGCCGTGTCCGGCGGCGGCTCCGCCGCCGGCGGCTCCCCCGAGTCCTCCGTGGAGTGCGACCACCTGC TGCAGCTGGAGTCCGGCCCCGAGGTGGTGCGCGGCCGCACCGAGTGGCGCCCCAAGTCCGCCAACAA CTCCCGCTCCATCCTGGAGATGCCCGCCGAGTCCCTGTGA SEQ ID NO: 10 Cuphea hyssopifolia (Chs) FATB1 amino acid sequence MVATNAAAFSAYTFFLTSPTHGYSSKRLADTQNGYPGTSLKSKSTPPPAAAAARNGALPLLASICKCPKKA DGSMQLDSSLVFGFQFYIRSYEVGADQTVSIQTVLNYLQEAAINHVQSAGYFGDSFGATPEMTKRNLIWVI TKMQVLVDRYPAWGDVVQVDTWTCSSGKNSMQRDWFVRDLKTGDIITRASSVWVLMNRLTRKLSKIPE AVLEEAKLFVMNTAPTVDDNRKLPKLDGSSADYVLSGLTPRWSDLDMNQHVNNVKYIAWILESVPQSIPE THKLSAITVEYRRECGKNSVLQSLTNVSGDGITCGNSIIECHHLLQLETGPEILLARTEWISKEPGFRGAPIQA EKVYNNK* SEQ ID NO: 11 Cuphea hyssopifolia (Chs) FATB1 coding DNA sequence ATGGTTGCCACTAATGCTGCTGCCTTTTCTGCTTATACTTTCTTCCTTACTTCACCAACTCATGGTTACT CTTCCAAACGTCTCGCCGATACTCAAAATGGTTATCCGGGTACCTCCTTGAAATCGAAATCCACTCCTC CACCAGCTGCTGCTGCTGCTCGTAACGGTGCATTGCCACTGCTGGCCTCCATCTGCAAATGCCCCAAAA AGGCTGATGGGAGTATGCAACTAGACAGCTCCTTGGTCTTCGGGTTTCAATTTTACATTAGATCATATG AAGTGGGTGCGGATCAAACCGTGTCAATACAGACAGTACTCAATTACTTACAGGAGGCAGCCATCAAT CATGTTCAGAGTGCTGGCTATTTTGGTGATAGTTTTGGCGCCACCCCGGAAATGACCAAGAGGAACCT CATCTGGGTTATCACTAAGATGCAGGTTTTGGTGGATCGCTATCCCGCTTGGGGCGATGTTGTTCAAGT TGATACATGGACCTGTAGTTCTGGTAAAAACAGCATGCAGCGTGATTGGTTCGTACGGGATCTCAAAA CTGGAGATATTATAACAAGAGCCTCGAGCGTGTGGGTGCTGATGAATAGACTCACCAGAAAATTATCA AAAATTCCTGAAGCAGTTCTGGAAGAAGCAAAACTTTTTGTGATGAACACTGCCCCCACCGTAGATGA CAACAGGAAGCTACCAAAGCTGGATGGCAGCAGTGCTGATTATGTCCTCTCTGGCTTAACTCCTAGAT GGAGCGACTTAGATATGAACCAGCATGTCAACAATGTGAAGTACATAGCCTGGATCCTTGAGAGTGTC CCTCAGAGCATACCGGAGACACACAAGCTGTCAGCGATAACCGTGGAGTACAGGAGAGAATGTGGCA AGAACAGCGTCCTCCAGTCTCTGACCAACGTCTCCGGGGATGGAATCACATGTGGAAACAGTATTATC GAGTGCCACCATTTGCTTCAACTTGAGACTGGCCCAGAGATTCTACTAGCGCGGACGGAGTGGATATC CAAGGAACCTGGGTTCAGGGGAGCTCCAATCCAGGCAGAGAAAGTCTACAACAACAAATAA SEQ ID NO: 12 Cuphea hyssopifolia (Chs) FATB1 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCACCAACGCCGCCGCCTTCTCCGCCTACACCTTCTTCCTGACCTCCCCCACCCACGGCTAC TCCTCCAAGCGCCTGGCCGACACCCAGAACGGCTACCCCGGCACCTCCCTGAAGTCCAAGTCCACCCC CCCCCCCGCCGCCGCCGCCGCCCGCAACGGCGCCCTGCCCCTGCTGGCCTCCATCTGCAAGTGCCCCA AGAAGGCCGACGGCTCCATGCAGCTGGACTCCTCCCTGGTGTTCGGCTTCCAGTTCTACATCCGCTCCT ACGAGGTGGGCGCCGACCAGACCGTGTCCATCCAGACCGTGCTGAACTACCTGCAGGAGGCCGCCATC AACCACGTGCAGTCCGCCGGCTACTTCGGCGACTCCTTCGGCGCCACCCCCGAGATGACCAAGCGCAA CCTGATCTGGGTGATCACCAAGATGCAGGTGCTGGTGGACCGCTACCCCGCCTGGGGCGACGTGGTGC AGGTGGACACCTGGACCTGCTCCTCCGGCAAGAACTCCATGCAGCGCGACTGGTTCGTGCGCGACCTG AAGACCGGCGACATCATCACCCGCGCCTCCTCCGTGTGGGTGCTGATGAACCGCCTGACCCGCAAGCT GTCCAAGATCCCCGAGGCCGTGCTGGAGGAGGCCAAGCTGTTCGTGATGAACACCGCCCCCACCGTGG ACGACAACCGCAAGCTGCCCAAGCTGGACGGCTCCTCCGCCGACTACGTGCTGTCCGGCCTGACCCCC CGCTGGTCCGACCTGGACATGAACCAGCACGTGAACAACGTGAAGTACATCGCCTGGATCCTGGAGTC CGTGCCCCAGTCCATCCCCGAGACCCACAAGCTGTCCGCCATCACCGTGGAGTACCGCCGCGAGTGCG GCAAGAACTCCGTGCTGCAGTCCCTGACCAACGTGTCCGGCGACGGCATCACCTGCGGCAACTCCATC ATCGAGTGCCACCACCTGCTGCAGCTGGAGACCGGCCCCGAGATCCTGCTGGCCCGCACCGAGTGGAT CTCCAAGGAGCCCGGCTTCCGCGGCGCCCCCATCCAGGCCGAGAAGGTGTACAACAACAAGTGA SEQ ID NO: 13 Cuphea hyssopifolia (Chs) FATB2 amino acid sequence MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKSGSLKT QEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGLVFRQN FSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVNRYPTW GDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAP VIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRREC GRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIASGETSPGDSS* SEQ ID NO: 14 Cuphea hyssopifolia (Chs) FATB2 coding DNA sequence ATGGTGGCTACCGCTGCAAGTTCAGCATTCTTCCCTGTGCCGTCCCCCGACGCCTCCTCTAGACCTGGA AAGCTCGGCAATGGGTCATCGAGCTTGAGCCCCCTCAAGCCCAAATTGATGGCCAATGGCGGGTTGCA GGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCTTCGGTCGGTCTAAAGTCCGGCAGTC TCAAGACTCAGGAAGACACTCCTTCGGCGCCTCCTCCCCGGACTTTTATTAACCAGCTGCCTGATTGGA GTATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCAGCAGAGAAGCAGTGGATGATGCTTGATTGGA AACCCAAGAGGCCTGACATGCTTGTGGACCCGTTCGGATTGGGAAGGATTGTTCAAGATGGGCTTGTG TTCAGGCAGAATTTTTCGATTAGGTCCTATGAAATAGGCGCTGATCGCACTGCGTCTATAGAGACGGT GATGAACCACTTGCAGGAAACAGCTCTCAATCATGTTAAGAGTGCTGGGCTTCTTAATGACGGCTTTG GTCGTACTCTTGAGATGTATAAAAGGGACCTTATTTGGGTTGTTGCAAAAATGCAGGTCATGGTTAAC CGCTATCCTACTTGGGGCGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTAT GCGTCGTGATTGGCTCATAAGTGATTGCAATACAGGAGAAATTCTTACTAGAGCATCAAGTGTGTGGG TCATGATGAATCAAAAGACAAGAAGATTGTCAAAAATTCCAGATGAGGTTCGACATGAGATAGAGCC TCATTTCGTGGACTCTGCTCCCGTCATTGAAGATGATGACCGGAAACTTCCCAAGCTGGATGAGAAGA CTGCTGACTCCATCCGCAAGGGTCTAACTCCGAAGTGGAATGACTTGGATGTCAATCAGCACGTCAAC AACGTGAAGTACATTGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATG TTCCCTTACCCTGGAATATAGGCGGGAATGCGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGTGG ACCCCTCTGGAAAGGGCTCTGGGTCTCAGTTCCAGCACCTTCTGCGGCTTGAGGATGGAGGTGAGATT GTGAAGGGGAGAACTGAGTGGCGACCCAAGACTGCAGGAATCAATGGGCCAATAGCATCCGGGGAGA CCTCACCTGGAGACTCTTCTTAG SEQ ID NO: 15 Cuphea hyssopifolia (Chs) FATB2 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACGCCTCCTCCCGCCCCGGC AAGCTGGGCAACGGCTCCTCCTCCCTGTCCCCCCTGAAGCCCAAGCTGATGGCCAACGGCGGCCTGCA GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCTCCC TGAAGACCCAGGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG TCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTG GAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCCGCATCGTGCAGGACGGCCTGG TGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC GTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGAACGACGGCTT CGGCCGCACCCTGGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTG AACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACG GCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGTG TGGGTGATGATGAACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCCACGAGATCG AGCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACCGCAAGCTGCCCAAGCTGGACGAG AAGACCGCCGACTCCATCCGCAAGGGCCTGACCCCCAAGTGGAACGACCTGGACGTGAACCAGCACG TGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGA GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCG CCGTGGACCCCTCCGGCAAGGGCTCCGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGC GAGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCCCCATCGCCTCCG GCGAGACCTCCCCCGGCGACTCCTCCTGA SEQ ID NO: 16 Cuphea hyssopifolia (Chs) FATB2b + a.a.248-259 variant amino acid sequence MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKSGSLKT QEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGLVFRQN FSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVNRYPTW GDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSKSQIMLPLHYCSVWVMMNQKTRRLSKIPDEV RHEIEPHFVDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQE LCSLTLEYRRECGRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIASGETSP GDSS* SEQ ID NO: 17 Cuphea hyssopifolia (Chs) FATB2b + a.a.248-259 variant coding DNA sequence ATGGTGGCTACCGCTGCAAGTTCAGCATTCTTCCCTGTGCCGTCCCCCGACGCCTCCTCTAGACCTGGA AAGCTCGGCAATGGGTCATCGAGCTTGAGCCCCCTCAAGCCCAAATTGATGGCCAATGGCGGGTTGCA GGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCTTCGGTCGGTCTAAAGTCCGGCAGTC TCAAGACTCAGGAAGACACTCCTTCGGCGCCTCCTCCCCGGACTTTTATTAACCAGCTGCCTGATTGGA GTATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCAGCAGAGAAGCAGTGGATGATGCTTGATTGGA AACCCAAGAGGCCTGACATGCTTGTGGACCCGTTCGGATTGGGAAGGATTGTTCAAGATGGGCTTGTG TTCAGGCAGAATTTTTCGATTAGGTCCTATGAAATAGGCGCTGATCGCACTGCGTCTATAGAGACGGT GATGAACCACTTGCAGGAAACAGCTCTCAATCATGTTAAGAGTGCTGGGCTTCTTAATGACGGCTTTG GTCGTACTCTTGAGATGTATAAAAGGGACCTTATTTGGGTTGTTGCAAAAATGCAGGTCATGGTTAAC CGCTATCCTACTTGGGGCGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTAT GCGTCGTGATTGGCTCATAAGTGATTGCAATACAGGAGAAATTCTTACTAGAGCATCAAGTAAAAGCC AAATTATGTTACCCTTACATTATTGCAGTGTGTGGGTCATGATGAATCAAAAGACAAGAAGATTGTCA AAAATTCCAGATGAGGTTCGACATGAGATAGAGCCTCATTTCGTGGACTCTGCTCCCGTCATTGAAGA TGATGACCGGAAACTTCCCAAGCTGGATGAGAAGACTGCTGACTCCATCCGCAAGGGTCTAACTCCGA AGTGGAATGACTTGGATGTCAATCAGCACGTCAACAACGTGAAGTACATTGGGTGGATTCTTGAGAGT ACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATGTTCCCTTACCCTGGAATATAGGCGGGAATGCGG AAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGTGGACCCCTCTGGAAAGGGCTCTGGGTCTCAGTTCC AGCACCTTCTGCGGCTTGAGGATGGAGGTGAGATTGTGAAGGGGAGAACTGAGTGGCGACCCAAGAC TGCAGGAATCAATGGGCCAATAGCATCCGGGGAGACCTCACCTGGAGACTCTTCTTAG SEQ ID NO: 18 Cuphea hyssopifolia (Chs) FATB2b + a.a.248-259 variant coding DNA  sequence codon optimized for Prototheca moriformis ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACGCCTCCTCCCGCCCCGGC AAGCTGGGCAACGGCTCCTCCTCCCTGTCCCCCCTGAAGCCCAAGCTGATGGCCAACGGCGGCCTGCA GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCTCCC TGAAGACCCAGGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG TCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTG GAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCCGCATCGTGCAGGACGGCCTGG TGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC GTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGAACGACGGCTT CGGCCGCACCCTGGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTG AACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACG GCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCAAG TCCCAGATCATGCTGCCCCTGCACTACTGCTCCGTGTGGGTGATGATGAACCAGAAGACCCGCCGCCT GTCCAAGATCCCCGACGAGGTGCGCCACGAGATCGAGCCCCACTTCGTGGACTCCGCCCCCGTGATCG AGGACGACGACCGCAAGCTGCCCAAGCTGGACGAGAAGACCGCCGACTCCATCCGCAAGGGCCTGAC CCCCAAGTGGAACGACCTGGACGTGAACCAGCACGTGAACAACGTGAAGTACATCGGCTGGATCCTG GAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGA GTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGCCGTGGACCCCTCCGGCAAGGGCTCCGGCTCCC AGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCGAGATCGTGAAGGGCCGCACCGAGTGGCGCCC CAAGACCGCCGGCATCAACGGCCCCATCGCCTCCGGCGAGACCTCCCCCGGCGACTCCTCCTGA SEQ ID NO: 19 Cuphea hyssopifolia (Chs) FATB3 amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSLKSGSL DTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQDGAVF RQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVNRYPTW GDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHFVDSAP VIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYRRECG RDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS* SEQ ID NO: 20 Cuphea hyssopifolia (Chs) FATB3 coding DNA sequence ATGGTGGCTGCCGAAGCAAGTTCTGCACTCTTCTCCGTTCGAACCCCGGGAACCTCCCCTAAACCCGG GAAGTTCGGGAATTGGCCAACGAGCTTGAGCGTCCCCTTCAAGTCCAAATCAAACCACAATGGCGGCT TTCAGGTTAAGGCAAACGCCAGTGCCCGTCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTGGC AGCCTCGACACTCAGGAGGACACTTCATCGTCGTCCTCTCCTCCTCGGACTTTCATTAACCAGTTGCCC GACTGGAGTATGCTGCTGTCCGCGATCACGACCGTCTTCGTGGCGGCTGAGAAGCAGTGGACGATGCT TGATCGGAAATCTAAGAGGCCCGACATGCTCATGGACCCGTTTGGGGTTGACAGGGTTGTTCAGGATG GGGCTGTGTTCAGACAGAGTTTTTCGATTAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATA GAGACGCTGATGAACATCTTCCAGGAAACATCTCTCAATCATTGTAAGAGTATCGGTCTTCTCAATGA CGGCTTTGGTCGTACTCCTGAGATGTGTAAGAGGGACCTCATTTGGGTGGTTACAAAAATGCACGTCG AGGTTAATCGCTATCCTACTTGGGGTGATACTATCGAGGTCAATACTTGGGTCTCCGAGTCGGGGAAA ACCGGTATGGGTCGTGATTGGCTGATAAGTGATTGTCATACAGGAGAAATTCTAATAAGAGCAACGAG CATGTGTGCTATGATGAATCAAAAGACGAGAAGATTCTCAAAATTTCCATATGAGGTTCGACAGGAGT TGGCGCCTCATTTTGTGGACTCTGCTCCTGTCATTGAAGACTATCAAAAATTGCACAAGCTTGATGTGA AGACGGGTGATTCCATTTGCAATGGCCTAACTCCAAGGTGGAATGACTTGGATGTCAATCAGCACGTT AACAATGTGAAGTACATTGGGTGGATTCTCGAGAGTGTTCCAACGGAAGTTTTCGAGACCCAGGAGCT ATGTGGCCTCACCCTTGAGTATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCTA TGGATCCATCAAAAGAGGGAGACAGATCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGGCTGAT ATCGCGAAGGGCAGAACCAAGTGGCGGCCGAAGAATGCAGGAACCAATGGGGCAATATCAACAGGA AAGACTTCAAATGGAAACTCGATCTCTTAG SEQ ID NO: 21 Cuphea hyssopifolia (Chs) FATB3 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCGCCGAGGCCTCCTCCGCCCTGTTCTCCGTGCGCACCCCCGGCACCTCCCCCAAGCCCGGC AAGTTCGGCAACTGGCCCACCTCCCTGTCCGTGCCCTTCAAGTCCAAGTCCAACCACAACGGCGGCTT CCAGGTGAAGGCCAACGCCTCCGCCCGCCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCT CCCTGGACACCCAGGAGGACACCTCCTCCTCCTCCTCCCCCCCCCGCACCTTCATCAACCAGCTGCCCG ACTGGTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTG GACCGCAAGTCCAAGCGCCCCGACATGCTGATGGACCCCTTCGGCGTGGACCGCGTGGTGCAGGACG GCGCCGTGTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCG AGACCCTGATGAACATCTTCCAGGAGACCTCCCTGAACCACTGCAAGTCCATCGGCCTGCTGAACGAC GGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATGCACGTGGA GGTGAACCGCTACCCCACCTGGGGCGACACCATCGAGGTGAACACCTGGGTGTCCGAGTCCGGCAAG ACCGGCATGGGCCGCGACTGGCTGATCTCCGACTGCCACACCGGCGAGATCCTGATCCGCGCCACCTC CATGTGCGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGTTCCCCTACGAGGTGCGCCAGGAGC TGGCCCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACTACCAGAAGCTGCACAAGCTGGACGTG AAGACCGGCGACTCCATCTGCAACGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGT GAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCGTGCCCACCGAGGTGTTCGAGACCCAGGAG CTGTGCGGCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGC CATGGACCCCTCCAAGGAGGGCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCG ACATCGCCAAGGGCCGCACCAAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGG CAAGACCTCCAACGGCAACTCCATCTCCTGA SEQ ID NO: 22 Cuphea hyssopifolia (Chs) FATB3b (V204I, C239F, E243D, M251V variant)  amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSLKSGSL DTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQDGAVF RQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHIEVNRYPTW GDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFVDSAPV IEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYRRECGR DSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS* SEQ ID NO: 23 Cuphea hyssopifolia (Chs) FATB3b (V204I, C239F, E243D, M251V variant)  coding DNA sequence ATGGTGGCTGCCGAAGCAAGTTCTGCACTCTTCTCCGTTCGAACCCCGGGAACCTCCCCTAAACCCGG GAAGTTCGGGAATTGGCCAACGAGCTTGAGCGTCCCCTTCAAGTCCAAATCAAACCACAATGGCGGCT TTCAGGTTAAGGCAAACGCCAGTGCCCGTCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTGGC AGCCTCGACACTCAGGAGGACACTTCATCGTCGTCCTCTCCTCCTCGGACTTTCATTAACCAGTTGCCC GACTGGAGTATGCTGCTGTCCGCGATCACGACCGTCTTCGTGGCGGCTGAGAAGCAGTGGACGATGCT TGATCGGAAATCTAAGAGGCCCGACATGCTCATGGACCCGTTTGGGGTTGACAGGGTTGTTCAGGATG GGGCTGTGTTCAGACAGAGTTTTTCGATTAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATA GAGACGCTGATGAACATCTTCCAGGAAACATCTCTCAATCATTGTAAGAGTATCGGTCTTCTCAATGA CGGCTTTGGTCGTACTCCTGAGATGTGTAAGAGGGACCTCATTTGGGTGGTTACAAAAATGCACATCG AGGTTAATCGCTATCCTACTTGGGGTGATACTATCGAGGTCAATACTTGGGTCTCCGAGTCGGGGAAA ACCGGTATGGGTCGTGATTGGCTGATAAGTGATTTTCATACAGGAGACATTCTAATAAGAGCAACGAG CGTGTGTGCTATGATGAATCAAAAGACGAGAAGATTCTCAAAATTTCCATATGAGGTTCGACAGGAGT TAGCGCCTCATTTTGTGGACTCTGCTCCAGTCATTGAAGACTATCAAAAATTGCACAAGCTTGATGTGA AGACGGGTGATTCCATTTGCAATGGCCTAACTCCAAGGTGGAATGACTTGGATGTCAATCAGCACGTT AACAATGTGAAGTACATTGGGTGGATTCTCGAGAGTGTTCCAACGGAAGTTTTCGAGACCCAGGAGCT ATGTGGCCTCACCCTTGAGTATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCTA TGGATCCCTCAAAAGAGGGAGACAGATCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGGCTGAT ATCGCGAAGGGCAGAACCAAGTGGCGGCCGAAGAATGCAGGAACCAATGGGGCAATATCAACAGGA AAGACTTCAAATGGAAACTCGATCTCTTAG SEQ ID NO: 24 Cuphea hyssopifolia (Chs) FATB3b (V204I, C239F, E243D, M251V variant)  coding DNA sequence codon optimized for Prototheca moriformis ATGGTGGCCGCCGAGGCCTCCTCCGCCCTGTTCTCCGTGCGCACCCCCGGCACCTCCCCCAAGCCCGGC AAGTTCGGCAACTGGCCCACCTCCCTGTCCGTGCCCTTCAAGTCCAAGTCCAACCACAACGGCGGCTT CCAGGTGAAGGCCAACGCCTCCGCCCGCCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCT CCCTGGACACCCAGGAGGACACCTCCTCCTCCTCCTCCCCCCCCCGCACCTTCATCAACCAGCTGCCCG ACTGGTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTG GACCGCAAGTCCAAGCGCCCCGACATGCTGATGGACCCCTTCGGCGTGGACCGCGTGGTGCAGGACG GCGCCGTGTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCG AGACCCTGATGAACATCTTCCAGGAGACCTCCCTGAACCACTGCAAGTCCATCGGCCTGCTGAACGAC GGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATGCACATCGA GGTGAACCGCTACCCCACCTGGGGCGACACCATCGAGGTGAACACCTGGGTGTCCGAGTCCGGCAAG ACCGGCATGGGCCGCGACTGGCTGATCTCCGACTTCCACACCGGCGACATCCTGATCCGCGCCACCTC CGTGTGCGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGTTCCCCTACGAGGTGCGCCAGGAGC TGGCCCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACTACCAGAAGCTGCACAAGCTGGACGTG AAGACCGGCGACTCCATCTGCAACGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGT GAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCGTGCCCACCGAGGTGTTCGAGACCCAGGAG CTGTGCGGCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGC CATGGACCCCTCCAAGGAGGGCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCG ACATCGCCAAGGGCCGCACCAAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGG CAAGACCTCCAACGGCAACTCCATCTCCTGA SEQ ID NO: 25 Cuphea PSR23 (Cu) FATB3 amino acid sequence MVVAAATSAFFPVPAPGTSPKPGKSGNWPSSLSPTFKPKSIPNAGFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKCIVRDGLVSRQ SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWG DTVEINTWFSQSGKIGMASDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE DNDQKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGM DSVLESVTAVDPSENGGRSQYKHLLRLEDGTDIVKSRTEWRPKNAGTNGAISTSTAKTSNGNSVS* SEQ ID NO: 26 Cuphea PSR23 (Cu) FATB3 coding DNA sequence ATGGTGGTGGCTGCAGCAACTTCTGCATTCTTCCCCGTTCCAGCCCCGGGAACCTCCCCTAAACCCGGG AAGTCCGGCAACTGGCCATCGAGCTTGAGCCCTACCTTCAAGCCCAAGTCAATCCCCAATGCCGGATT TCAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCA GCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCCCGGGCTTTCCTTAACCAGTTGCCTGATT GGAGTATGCTTCTGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTGGACTATGCTTGAT AGGAAATCTAAGAGGCCTGACATGCTCGTGGACTCGGTTGGGTTGAAGTGTATTGTTCGGGATGGGCT CGTGTCCAGACAGAGTTTTTTGATTAGATCTTATGAAATAGGCGCTGATCGAACAGCCTCTATAGAGA CGCTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCT TTGGTCGTACTCCTGGGATGTGTAAAAACGACCTCATTTGGGTGCTTACAAAAATGCAGATCATGGTG AATCGCTACCCAACTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCTCAGTCGGGGAAAATCGG TATGGCTAGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGT GGGCTATGATGAATCAAAAGACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAAC GCCTCATTTTGTGGACTCTCCTCATGTCATTGAAGACAATGATCAGAAATTGCATAAGTTTGATGTGAA GACTGGTGATTCCATTCGCAAGGGTCTAACTCCGAGGTGGAACGACTTGGATGTGAATCAGCACGTAA GCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAATAGAAGTTTTGGAGACACAGGAGCTA TGCTCTCTCACCGTAGAATATAGGCGGGAATGCGGAATGGACAGTGTGCTGGAGTCCGTGACTGCTGT GGATCCCTCAGAAAATGGAGGCCGGTCTCAGTACAAGCACCTTCTGCGGCTTGAGGATGGGACTGATA TCGTGAAGAGCAGAACTGAGTGGCGACCGAAGAATGCAGGAACTAACGGGGCGATATCAACATCAAC AGCAAAGACTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 27 Cuphea PSR23 (Cu) FATB3 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGTGGCCGCCGCCACCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAAGCCCGGC AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCACCTTCAAGCCCAAGTCCATCCCCAACGCCGGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG GTCCATGCTGCTGACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGTGCATCGTGCGCGACGGCCTG GTGTCCCGCCAGTCCTTCCTGATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA ACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC ATGGCCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCAGAAGCTGCACAAGTTCGACGTGAAG ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGACCCAGGAGCTGT GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCGTG GACCCCTCCGAGAACGGCGGCCGCTCCCAGTACAAGCACCTGCTGCGCCTGGAGGACGGCACCGACA TCGTGAAGTCCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCTCCACC GCCAAGACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 28 Cuphea wrightii (Cw) FATB3 amino acid sequence MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSLKSGSL NTLEDPPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQFTRLDRKSKRPDMLVDWFGSETIVQDGLVFRER FSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCTRDLIWVLTKMQIVVNRYPTWGD TVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDAPPVIE DNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRRECGR ESVVESVTSMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNRAIST* SEQ ID NO: 29 Cuphea wrightii (Cw) FATB3 coding DNA sequence ATGGTGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGTTCCAGCACCTAGAACCACGCCTAAACCC GGGAAGTTCGGCAATTGGCCATCGAGCTTGAGCCCGCCCTTCAAGCCCAAGTCAAACCCCAATGGTAG ATTTCAGGTTAAGGCAAATGTCAGTCCTCATCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTG GCAGCCTCAACACTCTGGAGGACCCTCCGTCGTCCCCTCCTCCTCGGACTTTCCTTAACCAGTTGCCTG ATTGGAGTAGGCTTCGGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTTCACTAGGCTC GATCGAAAATCTAAGAGGCCTGACATGCTAGTGGACTGGTTTGGGTCAGAGACTATTGTTCAGGATGG GCTCGTGTTCAGAGAGAGATTTTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG AGACGCTGATGAACCACTTGCAGGACACATCTCTGAATCATTGTAAGAGTGTGGGTCTTCTCAATGAC GGCTTTGGTCGTACCTCGGAGATGTGTACAAGAGACCTCATTTGGGTGCTTACAAAAATGCAGATCGT GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCGGGGAAAA TCGGTATGGGTCGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTGTAAGAGCAACGAGC GCTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCATGCGAGGTTCGCCAGGAGAT AGCGCCTCATTTTGTGGACGCTCCTCCTGTCATTGAAGACAATGATCGGAAATTGCATAAGTTTGATGT GAAGACTGGTGATTCCATTTGCAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACG TAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCTACAGAAGTTTTGGAGACCCAGGAG CTATGCTCTCTCACCCTTGAATATAGGCGGGAATGTGGAAGGGAAAGTGTGGTAGAGTCCGTGACCTC TATGAATCCCTCAAAAGTTGGAGACCGGTCTCAGTACCAACACCTTCTGCGGCTTGAGGATGGGGCTG ATATCATGAAGGGCAGAACTGAGTGGAGACCAAAGAATGCAGGAACCAACCGGGCGATATCAACATG A SEQ ID NO: 30 Cuphea wrightii (Cw) FATB3 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCCGCACCACCCCCAAGCCC GGCAAGTTCGGCAACTGGCCCTCCTCCCTGTCCCCCCCCTTCAAGCCCAAGTCCAACCCCAACGGCCG CTTCCAGGTGAAGGCCAACGTGTCCCCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCG GCTCCCTGAACACCCTGGAGGACCCCCCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCG ACTGGTCCCGCCTGCGCACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTTCACCCGCCTG GACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTGGTTCGGCTCCGAGACCATCGTGCAGGACGG CCTGGTGTTCCGCGAGCGCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGA GACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGACG GCTTCGGCCGCACCTCCGAGATGTGCACCCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCGTG GTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGAT CGGCATGGGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGGTGCGCGCCACCTCCG CCTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCTGCGAGGTGCGCCAGGAGATC GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT GAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCAC GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGA GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGGTGGAGTCCGTGACCT CCATGAACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCC GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACCGCGCCATCTCCACCT GA SEQ ID NO: 31 Cuphea wrightii (Cw) FATB4a amino acid sequence MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKSGGFKTQ EDSPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGLVFRQNF SIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWG DTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHFVDSAPV VEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECG RESVLESLTAVDPSAEGYASRFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGDFF* SEQ ID NO: 32 Cuphea wrightii (Cw) FATB4a coding DNA sequence TTGGTGGCTACCGCTGCAAGTTCTGCATTTTTCCCCGTGCCATCCGCCGACACCTCCTCCTCGAGACCC GGAAAGCTCGGCAGTGGACCATCGAGCTTGAGCCCCCTCAAGCCCAAATCGATCCCCAATGGCGGCTT GCAGGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCCTCGGTCGGTCTAAAGTCGGGCG GTTTCAAGACTCAGGAAGACTCTCCTTCGGCCCCTCCTCCGCGGACTTTTATCAACCAGTTGCCTGATT GGAGTATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCTGCAGAGAAGCAGTGGATGATGCTTGATT GGAAACCTAAGAGGCCTGACATGCTCGTGGACCCGTTCGGATTGGGAAGTATTGTTCAGGATGGGCTT GTGTTCAGGCAGAATTTTTCAATTAGGTCCTACGAAATAGGCGCCGATCGAACTGCGTCTATAGAGAC GGTGATGAACCATTTGCAGGAAACAGCTCTCAATCATGTCAAGATTGCTGGGCTTTCTAATGACGGCT TTGGTCGTACTCCTGAGATGTATAAAAGAGACCTTATTTGGGTTGTTGCAAAAATGCAGGTCATGGTTA ACCGCTATCCTACTTGGGGTGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGT ATGCGTCGTGACTGGCTCATAAGTGATTGCAATACTGGAGAGATTCTTACAAGAGCATCAAGCGTGTG GGTCATGATGAATCAAAAGACAAGAAGATTGTCAAAAATTCCAGATGAGGTTCGAAATGAGATAGAG CCTCATTTTGTGGACTCTGCTCCCGTCGTTGAAGATGATGATCGGAAACTTCCCAAGCTGGATGAGAAC ACTGCTGACTCCATCCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTCAA CAACGTGAAGTACATCGGATGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTAT GCTCCCTGACCCTGGAATACAGGCGGGAATGTGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGTC GACCCGTCTGCAGAGGGCTATGCGTCCCGGTTTCAGCACCTTCTGCGGCTTGAGGATGGAGGTGAGAT CGTGAAGGCGAGAACTGAGTGGCGACCCAAGAATGCTGGAATCAATGGGGTGGTACCATCCGAGGAG TCCTCACCTGGAGACTTCTTTTAG SEQ ID NO: 33 Cuphea wrightii (Cw) FATB4a coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCGCCGACACCTCCTCCTCCCGCCCC GGCAAGCTGGGCTCCGGCCCCTCCTCCCTGTCCCCCCTGAAGCCCAAGTCCATCCCCAACGGCGGCCT GCAGGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCG GCTTCAAGACCCAGGAGGACTCCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACT GGTCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGAC TGGAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCTCCATCGTGCAGGACGGCCT GGTGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGA CCGTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGATCGCCGGCCTGTCCAACGACGG CTTCGGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGG TGAACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAA CGGCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCG TGTGGGTGATGATGAACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCAACGAGAT CGAGCCCCACTTCGTGGACTCCGCCCCCGTGGTGGAGGACGACGACCGCAAGCTGCCCAAGCTGGACG AGAACACCGCCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCA CGTGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGG AGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACC GCCGTGGACCCCTCCGCCGAGGGCTACGCCTCCCGCTTCCAGCACCTGCTGCGCCTGGAGGACGGCGG CGAGATCGTGAAGGCCCGCACCGAGTGGCGCCCCAAGAACGCCGGCATCAACGGCGTGGTGCCCTCC GAGGAGTCCTCCCCCGGCGACTTCTTCTGA SEQ ID NO: 34 Cuphea wrightii (Cw) FATB4b amino acid sequence MVATAASSAFFPVPSADTSSSRPGKLGNGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKSGSFKTQ EDAPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGLVFRQNF SIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSSDGFGRTPAMSKRDLIWVVAKMQVMVNRYPAWGD TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHFVDSAPVV EDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPAEVLETQELCSLTLEYRRECGR ESVLESLTAVDPSGEGDGSKFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGGDFF* SEQ ID NO: 35 Cuphea wrightii (Cw) FATB4b coding DNA sequence TTGGTGGCTACCGCTGCAAGTTCTGCATTTTTCCCCGTACCATCCGCCGACACCTCCTCATCGAGACCC GGAAAGCTCGGCAATGGGCCATCGAGCTTGAGCCCCCTCAAGCCGAAATCGATCCCCAATGGCGGGTT GCAGGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCCTCGGTCGGTCTGAAGTCGGGCA GTTTCAAGACTCAGGAAGACGCTCCTTCGGCCCCTCCTCCTCGGACTTTTATCAACCAGTTGCCTGATT GGAGTATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCTGCAGAGAAGCAGTGGATGATGCTTGATT GGAAACCTAAGAGGCCTGACATGCTTGTCGACCCGTTCGGATTGGGAAGTATTGTTCAGGATGGGCTT GTTTTCAGGCAGAATTTCTCGATTAGGTCCTACGAAATAGGCGCTGATCGCACTGCGTCTATAGAGAC GGTGATGAACCATTTGCAGGAAACAGCTCTCAATCATGTTAAGATTGCTGGGCTTTCTAGTGATGGCTT TGGTCGTACTCCTGCGATGTCTAAACGGGACCTCATTTGGGTTGTTGCGAAAATGCAGGTCATGGTTAA CCGCTACCCTGCTTGGGGTGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTA TGCGTCGTGACTGGCTCATAAGTGATTGCAACACTGGAGAGATTCTTACAAGAGCATCAAGCGTGTGG GTCATGATGAATCAAAAGACAAGAAGATTGTCAAAAATTCCAGATGAGGTTCGAAATGAGATAGAGC CTCATTTTGTGGACTCTGCGCCCGTCGTTGAAGACGATGACCGGAAACTTCCCAAGCTGGATGAGAAC ACTGCTGACTCCATCCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTCAA CAACGTGAAGTACATTGGGTGGATTCTTGAGAGTACTCCAGCAGAAGTTCTGGAGACCCAGGAATTAT GTTCCCTGACCCTGGAATACAGGCGGGAATGTGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGTA GATCCGTCTGGAGAGGGCGATGGGTCCAAGTTCCAGCACCTTCTGCGGCTTGAGGATGGAGGTGAGAT CGTGAAGGCGAGAACTGAGTGGCGACCAAAGAATGCTGGAATCAATGGGGTGGTACCATCCGAGGAG TCCTCACCTGGTGGAGACTTCTTTTAA SEQ ID NO: 36 Cuphea wrightii (Cw) FATB4b coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCGCCGACACCTCCTCCTCCCGCCCC GGCAAGCTGGGCAACGGCCCCTCCTCCCTGTCCCCCCTGAAGCCCAAGTCCATCCCCAACGGCGGCCT GCAGGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCT CCTTCAAGACCCAGGAGGACGCCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGAC TGGTCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGA CTGGAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCTCCATCGTGCAGGACGGCC TGGTGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAG ACCGTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGATCGCCGGCCTGTCCTCCGACGG CTTCGGCCGCACCCCCGCCATGTCCAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGG TGAACCGCTACCCCGCCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAA CGGCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCG TGTGGGTGATGATGAACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCAACGAGAT CGAGCCCCACTTCGTGGACTCCGCCCCCGTGGTGGAGGACGACGACCGCAAGCTGCCCAAGCTGGACG AGAACACCGCCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCA CGTGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCGCCGAGGTGCTGGAGACCCAG GAGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGAC CGCCGTGGACCCCTCCGGCGAGGGCGACGGCTCCAAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCG GCGAGATCGTGAAGGCCCGCACCGAGTGGCGCCCCAAGAACGCCGGCATCAACGGCGTGGTGCCCTC CGAGGAGTCCTCCCCCGGCGGCGACTTCTTCTGA SEQ ID NO: 37 Cuphea wrightii (Cw) FATB5 amino acid sequence MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSGSLETPP RSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEIGVDRTASIETLM NIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWVSESGKNGMGRD WLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDSIRDG LTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEGDRCV YQHLLRLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGRGWQPFRVVRLIF* SEQ ID NO: 38 Cuphea wrightii (Cw) FATB5 coding DNA sequence ATGGTGGCTGCCGCAGCAAGTTCTGCATTCTTCTCTGTTCCAACCCCGGGAACGCCCCCTAAACCCGGG AAGTTCGGTAACTGGCCATCGAGCTTGAGCGTCCCCTTCAAGCCCGACAATGGTGGCTTTCATGTCAA GGCAAACGCCAGTGCCCATCCTAAGGCTAATGGTTCTGCGGTAAATCTAAAGTCTGGCAGCCTCGAGA CTCCTCCTCGGAGTTTCATTAACCAGCTGCCGGACTTGAGTGTGCTTCTGTCCAAAATCACGACTGTCT TCGGGGCGGCTGAGAAGCAGTGGAAGAGGCCCGGCATGCTCGTGGAACCGTTTGGGGTTGACAGGAT TTTTCAGGATGGTGTTTTTTTCAGACAGAGTTTTTCTATCAGGTCTTACGAAATAGGCGTTGATCGAAC AGCCTCGATAGAGACACTGATGAACATCTTCCAGGAAACATCTTTGAATCATTGCAAGAGTATCGGTC TTCTCAACGATGGCTTTGGTCGTACTCCTGAGATGTGTAAGAGGGACCTCATTTGGGTGGTTACGAAA ATTCAGGTCGAGGTGAATCGCTATCCTACTTGGGGTGACACTATCGAAGTCAATACTTGGGTCTCGGA GTCGGGGAAAAACGGTATGGGTCGGGATTGGCTGATAAGTGATTGCCGTACTGGAGAGATTCTTATAA GAGCAACGAGCGTGTGGGCGATGATGAATCAAAACACGAGAAGATTGTCAAAATTTCCATATGAGGT TCGACAGGAGATAGCGCCTCATTTTGTGGACTCTGCTCCTGTCATTGAAGACGATCAAAAGTTGCAGA AGCTTGATGTGAAGACAGGTGATTCCATTCGCGATGGTCTAACTCCGAGATGGAATGACTTGGATGTC AATCAACACGTTAACAATGTGAAGTACATTGGATGGATTCTCAAGAGTGTTCCAATAGAAGTTTTCGA GACACAGGAGCTATGCGGCGTCACACTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAG TCAGTGACCGCTATGGATCCAGCAAAAGAGGGAGACCGGTGTGTGTACCAGCACCTTCTTCGGCTTGA GGATGGAGCTGATATCACTATAGGCAGAACCGAGTGGCGGCCGAAGAATGCAGGAGCCAATGGTGCA ATGTCATCAGGAAAGACTTCAAATGGAAACTGTCTCATAGAAGGAAGGGGTTGGCAACCTTTCCGAGT TGTGCGTTTAATTTTCTGA SEQ ID NO: 39 Cuphea wrightii (Cw) FATB5 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCGTGCCCACCCCCGGCACCCCCCCCAAGCCCGGC AAGTTCGGCAACTGGCCCTCCTCCCTGTCCGTGCCCTTCAAGCCCGACAACGGCGGCTTCCACGTGAA GGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTCCCTGGAGA CCCCCCCCCGCTCCTTCATCAACCAGCTGCCCGACCTGTCCGTGCTGCTGTCCAAGATCACCACCGTGT TCGGCGCCGCCGAGAAGCAGTGGAAGCGCCCCGGCATGCTGGTGGAGCCCTTCGGCGTGGACCGCAT CTTCCAGGACGGCGTGTTCTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGTGGACCGCAC CGCCTCCATCGAGACCCTGATGAACATCTTCCAGGAGACCTCCCTGAACCACTGCAAGTCCATCGGCC TGCTGAACGACGGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAG ATCCAGGTGGAGGTGAACCGCTACCCCACCTGGGGCGACACCATCGAGGTGAACACCTGGGTGTCCG AGTCCGGCAAGAACGGCATGGGCCGCGACTGGCTGATCTCCGACTGCCGCACCGGCGAGATCCTGATC CGCGCCACCTCCGTGTGGGCCATGATGAACCAGAACACCCGCCGCCTGTCCAAGTTCCCCTACGAGGT GCGCCAGGAGATCGCCCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACCAGAAGCTGCAGA AGCTGGACGTGAAGACCGGCGACTCCATCCGCGACGGCCTGACCCCCCGCTGGAACGACCTGGACGT GAACCAGCACGTGAACAACGTGAAGTACATCGGCTGGATCCTGAAGTCCGTGCCCATCGAGGTGTTCG AGACCCAGGAGCTGTGCGGCGTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGA GTCCGTGACCGCCATGGACCCCGCCAAGGAGGGCGACCGCTGCGTGTACCAGCACCTGCTGCGCCTGG AGGACGGCGCCGACATCACCATCGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCGCCAACGGCGC CATGTCCTCCGGCAAGACCTCCAACGGCAACTGCCTGATCGAGGGCCGCGGCTGGCAGCCCTTCCGCG TGGTGCGCCTGATCTTCTGA SEQ ID NO: 40 Cuphea heterophylla (Cht) FATB1a amino acid sequence MVAAAASSAFFSVPTPGTSTKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNLKSGSLE TQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEI GADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWV SESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDDKKLHKL DVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSVLESVTA MDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS* SEQ ID NO: 41 Cuphea heterophylla (Cht) FATB1a coding DNA sequence ATGGTGGCTGCCGCAGCAAGTTCTGCATTCTTCTCCGTTCCAACCCCGGGAACCTCCACTAAACCCGGG AACTTCGGCAATTGGCCATCGAGCTTGAGCGTCCCCTTCAAGCCCGAATCAAACCACAATGGTGGCTT TCGGGTCAAGGCAAACGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCA GCCTCGAGACTCAGGAGGACACTTCATCGTCGTCCCCTCCTCCTCGGACTTTTATTAAGCAGTTGCCCG ACTGGGGTATGCTTCTGTCCAAAATCACGACTGTCTTCGGGGCGGCTGAGAGGCAGTGGAAGAGGCCC GGCATGCTTGTGGAACCGTTTGGGGTTGACAGGATTTTTCAGGATGGGGTTTTTTTCAGACAGAGTTTT TCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCAATAGAGACGCTGATGAACATCTTCCA GGAAACATCTCTGAATCATTGTAAGAGTATCGGTCTTCTCAATGACGGCTTTGGTCGTACTCCTGAGAT GTGTAAGAGGGACCTCATTTGGGTGGTTACGAAAATTCAGGTCGAGGTGAATCGCTATCCTACTTGGG GTGATACTATTGAGGTCAATACTTGGGTCTCAGAGTCGGGGAAAAACGGTATGGGTCGTGATTGGCTG ATAAGCGATTGCCGTACCGGAGAAATTCTTATAAGAGCAACGAGCGTGTGGGCTATGATGAATCGAA AGACGAGAAGATTGTCAAAATTTCCATATGAGGTTCGACAGGAGATAGCGCCTCATTTTGTGGACTCT GCTCCTGTCATTGAAGACGATAAAAAATTGCACAAGCTTGATGTTAAGACGGGTGATTCCATTCGCAA GGGTCTAACTCCAAGGTGGAATGACTTGGATGTCAATCAGCACGTTAACAATGTGAAGTACATTGGGT GGATTCTCAAGAGTGTTCCAGCAGAAGTTTTCGAGACCCAGGAGCTATGCGGAGTCACCCTTGAGTAC AGGCGGGAATGTGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCTATGGATACCGCAAAAGAGGGAG ACCGGTCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGGCTGATATCACCATAGGCAGAACCGAG TGGCGGCCGAAGAATGCAGGAGCCAATGGGGCAATATCAACAGGAAAGACTTCAAATGAAAACTCTG TCTCTTAG SEQ ID NO: 42 Cuphea heterophylla (Cht) FATB1a coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCGTGCCCACCCCCGGCACCTCCACCAAGCCCGGC AACTTCGGCAACTGGCCCTCCTCCCTGTCCGTGCCCTTCAAGCCCGAGTCCAACCACAACGGCGGCTTC CGCGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGGAGACCCAGGAGGACACCTCCTCCTCCTCCCCCCCCCCCCGCACCTTCATCAAGCAGCTGCCCG ACTGGGGCATGCTGCTGTCCAAGATCACCACCGTGTTCGGCGCCGCCGAGCGCCAGTGGAAGCGCCCC GGCATGCTGGTGGAGCCCTTCGGCGTGGACCGCATCTTCCAGGACGGCGTGTTCTTCCGCCAGTCCTTC TCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACCCTGATGAACATCTTCCA GGAGACCTCCCTGAACCACTGCAAGTCCATCGGCCTGCTGAACGACGGCTTCGGCCGCACCCCCGAGA TGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATCCAGGTGGAGGTGAACCGCTACCCCACCTGG GGCGACACCATCGAGGTGAACACCTGGGTGTCCGAGTCCGGCAAGAACGGCATGGGCCGCGACTGGC TGATCTCCGACTGCCGCACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTGGGCCATGATGAACCGC AAGACCCGCCGCCTGTCCAAGTTCCCCTACGAGGTGCGCCAGGAGATCGCCCCCCACTTCGTGGACTC CGCCCCCGTGATCGAGGACGACAAGAAGCTGCACAAGCTGGACGTGAAGACCGGCGACTCCATCCGC AAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGAACAACGTGAAGTACATCG GCTGGATCCTGAAGTCCGTGCCCGCCGAGGTGTTCGAGACCCAGGAGCTGTGCGGCGTGACCCTGGAG TACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGACACCGCCAAGGAGG GCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCGACATCACCATCGGCCGCACC GAGTGGCGCCCCAAGAACGCCGGCGCCAACGGCGCCATCTCCACCGGCAAGACCTCCAACGAGAACT CCGTGTCCTGA SEQ ID NO: 43 Cuphea heterophylla (Cht) FATB1b (P16S, T20P, G94S, G105W, S293F, L305F  variant) amino acid sequence MVAAAASSAFFSVPTSGTSPKPGNFGNWPSSLSVPFKPESSHNGGFQVKANASAHPKANGSAVNLKSGSLE TQEDTSSSSPPPRTFIKQLPDWSMLLSKITTVFWAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEI GADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWV SESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDDKKLHKL DVKTGDFIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSVLESVTA MDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS* SEQ ID NO: 44 Cuphea heterophylla (Cht) FATB1b (P16S, T20P, G94S, G105W, S293F, L305F  variant) coding DNA sequence ATGGTGGCTGCCGCAGCAAGTTCTGCATTCTTCTCCGTTCCAACCTCGGGAACCTCCCCTAAACCCGGG AACTTCGGCAATTGGCCATCGAGCTTGAGCGTCCCCTTCAAGCCCGAATCAAGCCACAATGGTGGCTT TCAGGTCAAGGCAAACGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCA GCCTCGAGACTCAGGAGGACACTTCATCGTCGTCCCCTCCTCCTCGGACTTTTATTAAGCAGTTGCCCG ACTGGAGTATGCTTCTGTCCAAAATCACGACTGTCTTCTGGGCGGCTGAGAGGCAGTGGAAGAGGCCC GGCATGCTTGTGGAACCGTTTGGGGTTGACAGGATTTTTCAGGATGGGGTTTTTTTCAGACAGAGTTTT TCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCAATAGAGACGCTGATGAACATCTTCCA GGAAACATCTCTGAATCATTGTAAGAGTATCGGTCTTCTCAATGACGGCTTTGGTCGTACTCCTGAGAT GTGTAAGAGGGACCTCATTTGGGTGGTTACGAAAATTCAGGTCGAGGTGAATCGCTATCCTACTTGGG GTGATACTATTGAGGTCAATACTTGGGTCTCAGAGTCGGGGAAAAACGGTATGGGTCGTGATTGGCTG ATAAGCGATTGCCGTACCGGAGAAATTCTTATAAGAGCAACGAGCGTGTGGGCTATGATGAATCGAA AGACGAGAAGATTGTCAAAATTTCCATATGAGGTTCGACAGGAGATAGCGCCTCATTTTGTGGACTCT GCTCCTGTCATTGAAGACGATAAAAAATTGCACAAGCTTGATGTTAAGACGGGTGATTTCATTCGCAA GGGTCTAACTCCAAGGTGGAATGACTTTGATGTCAATCAGCACGTTAACAATGTGAAGTACATTGGGT GGATTCTCAAGAGTGTTCCAGCAGAAGTTTTCGAGACCCAGGAGCTATGCGGAGTCACCCTTGAGTAT AGGCGGGAATGTGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCTATGGATACCGCAAAAGAGGGAG ACCGGTCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGGCTGATATCACCATAGGCAGAACCGAG TGGCGGCCGAAGAATGCAGGAGCCAATGGGGCAATATCAACAGGAAAGACTTCAAATGAAAACTCTG TCTCTTAG SEQ ID NO: 45 Cuphea heterophylla (Cht) FATB1b (P16S, T20P, G94S, G105W, S293F, L305F  variant) coding DNA sequence codon optimized for Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCGTGCCCACCTCCGGCACCTCCCCCAAGCCCGGC AACTTCGGCAACTGGCCCTCCTCCCTGTCCGTGCCCTTCAAGCCCGAGTCCTCCCACAACGGCGGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGGAGACCCAGGAGGACACCTCCTCCTCCTCCCCCCCCCCCCGCACCTTCATCAAGCAGCTGCCCG ACTGGTCCATGCTGCTGTCCAAGATCACCACCGTGTTCTGGGCCGCCGAGCGCCAGTGGAAGCGCCCC GGCATGCTGGTGGAGCCCTTCGGCGTGGACCGCATCTTCCAGGACGGCGTGTTCTTCCGCCAGTCCTTC TCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACCCTGATGAACATCTTCCA GGAGACCTCCCTGAACCACTGCAAGTCCATCGGCCTGCTGAACGACGGCTTCGGCCGCACCCCCGAGA TGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATCCAGGTGGAGGTGAACCGCTACCCCACCTGG GGCGACACCATCGAGGTGAACACCTGGGTGTCCGAGTCCGGCAAGAACGGCATGGGCCGCGACTGGC TGATCTCCGACTGCCGCACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTGGGCCATGATGAACCGC AAGACCCGCCGCCTGTCCAAGTTCCCCTACGAGGTGCGCCAGGAGATCGCCCCCCACTTCGTGGACTC CGCCCCCGTGATCGAGGACGACAAGAAGCTGCACAAGCTGGACGTGAAGACCGGCGACTTCATCCGC AAGGGCCTGACCCCCCGCTGGAACGACTTCGACGTGAACCAGCACGTGAACAACGTGAAGTACATCG GCTGGATCCTGAAGTCCGTGCCCGCCGAGGTGTTCGAGACCCAGGAGCTGTGCGGCGTGACCCTGGAG TACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGACACCGCCAAGGAGG GCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCGACATCACCATCGGCCGCACC GAGTGGCGCCCCAAGAACGCCGGCGCCAACGGCGCCATCTCCACCGGCAAGACCTCCAACGAGAACT CCGTGTCCTGA SEQ ID NO: 46 Cuphea heterophylla (Cht) FATB2b amino acid sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL NTQEGTSSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQDGLVFRE SFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVNRYPTWG DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPVIE DNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGR DSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS* SEQ ID NO: 47 Cuphea heterophylla (Cht) FATB2b coding DNA sequence ATGGTGGTGGCTGCTGCAGCAAGCTCTGCATTCTTCCCTGTTCCGGCATCTGGAACCTCCCCTAAACCC GGGAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCCGCAGTAAGTCTAAAGTCTG GCAGCCTCAACACTCAGGAGGGCACTTCGTCGTCCCCTCCTCCTCGGACTTTCCTTAACCAGTTGCCTG ATTGGAGTAGGCTTCGGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC GATCGAAAGTCTAAGAAGCCTGACATGCACGTGGACTGGTTTGGGTTGGAGATTATTGTTCAGGATGG GCTCGTGTTCAGAGAGAGTTTTTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG AAACGTTGATGAACCATTTGCAGGACACATCTTTGAACCATTGTAAGAGTGTGGGTCTTCTCAATGAC GGCTTTGGTCGTACCCCGGAGATGTGTAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCAT GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGA TAGCGCCTCATTTTGTGGACGCCCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATG TGAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAATGACTTGGATGTCAATCAGCAC GTAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGG AGCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGATAGTGTGCTGGAGTCTGTGACC GCTATGGATCCCTCAAAAGTTGGAGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGAC TGATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCTATATCAACA GGAAAGACTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 48 Cuphea heterophylla (Cht) FATB2b coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCTCCGGCACCTCCCCCAAGCCC GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG CTCCCTGAACACCCAGGAGGGCACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCGA CTGGTCCCGCCTGCGCACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTGG ACCGCAAGTCCAAGAAGCCCGACATGCACGTGGACTGGTTCGGCCTGGAGATCATCGTGCAGGACGG CCTGGTGTTCCGCGAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGA GACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGACG GCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCATG GTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGAT CGGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCA TCTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATC GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT GAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAGCAC GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCAGGA GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCG CCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACC GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCG GCAAGACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 49 Cuphea heterophylla (Cht) FATB2a (S17P, P21S, T28N, L30P, S33L, G76D,  S78P, G137W variant) amino acid sequence MVVAAAASSAFFPVPAPGTTSKPGKFGNWPSSLSPSFKPKSNPNGGFQVKANASAHPKANGSAVSLKSGSL NTKEDTPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQDWLVFRE SFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVNRYPTWG DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPLIE DNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGR DSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS* SEQ ID NO: 50 Cuphea heterophylla (Cht) FATB2a (S17P, P21S, T28N, L30P, S33L, G76D,  S78P, G137W variant) coding DNA sequence ATGGTGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGTTCCAGCACCTGGAACCACGTCTAAACCC GGGAAGTTCGGCAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGCCCAAGTCAAACCCCAATGGTGG ATTTCAGGTTAAGGCAAATGCCAGCGCTCATCCTAAGGCTAACGGGTCTGCAGTAAGTCTAAAGTCTG GCAGCCTCAACACTAAGGAGGACACTCCGTCGTCCCCTCCTCCTCGGACTTTCCTTAACCAGTTGCCTG ATTGGAGTAGGCTTCGGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC GATCGAAAGTCTAAGAAGCCTGACATGCACGTGGACTGGTTTGGGTTGGAGATTATTGTTCAGGATTG GCTCGTGTTCAGAGAGAGTTTTTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG AAACGTTGATGAACCATTTGCAGGACACATCTTTGAACCATTGTAAGAGTGTGGGTCTTCTCAATGAC GGCTTTGGTCGTACCCCGGAGATGTGTAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCAT GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGA TAGCTCCTCATTTTGTGGACGCCCCTCCTCTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATG TGAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAATGACTTGGATGTCAATCAGCAC GTAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGG AGCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCTGTGACC GCTATGGATCCCTCAAAAGTTGGAGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGAC TGATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACA GGAAAGACTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 51 Cuphea heterophylla (Cht) FATB2a (S17P, P21S, T28N, L30P, S33L, G76D,  S78P, G137W variant) coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCACCTCCAAGCCC GGCAAGTTCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCCAAGTCCAACCCCAACGGCGG CTTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCG GCTCCCTGAACACCAAGGAGGACACCCCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCC GACTGGTCCCGCCTGCGCACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCT GGACCGCAAGTCCAAGAAGCCCGACATGCACGTGGACTGGTTCGGCCTGGAGATCATCGTGCAGGAC TGGCTGGTGTTCCGCGAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATC GAGACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGA CGGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCA TGGTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAG ATCGGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTC CATCTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAG ATCGCCCCCCACTTCGTGGACGCCCCCCCCCTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGA CGTGAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAG CACGTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCA GGAGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGA CCGCCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGC ACCGACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCA CCGGCAAGACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 52 Cuphea heterophylla (Cht) FATB2c (G76D, S78P variant) amino acid sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL NTKEDTPSSPPPRTFLNQLPDWNRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQDGLVFRE SFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVNRYPTWG DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPVIE DNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGR DSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS* SEQ ID NO: 53 Cuphea heterophylla (Cht) FATB2c (G76D, S78P variant) coding DNA sequence ATGGTGGTGGCTGCTGCAGCAAGCTCTGCATTCTTCCCTGTTCCGGCATCTGGAACCTCCCCTAAACCC GGGAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCCGCAGTAAGTCTAAAGTCTG GCAGCCTCAACACTAAGGAGGACACTCCGTCGTCCCCTCCTCCTCGGACTTTCCTTAACCAGTTGCCTG ATTGGAATAGGCTTCGGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC GATCGAAAGTCTAAGAAGCCTGACATGCACGTGGACTGGTTTGGGTTGGAGATTATTGTTCAGGATGG GCTCGTGTTCAGAGAGAGTTTTTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG AAACGTTGATGAACCATTTGCAGGACACATCTTTGAACCATTGTAAGAGTGTGGGTCTTCTCAATGAC GGCTTTGGTCGTACCCCGGAGATGTGTAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCAT GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGA TAGCGCCTCATTTTGTGGACGCCCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATG TGAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAATGACTTGGATGTCAATCAGCAC GTAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGG AGCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCTGTGACC GCTATGGATCCCTCAAAAGTTGGGGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGAC TGATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCTATATCAACA GGAAAGACTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 54 Cuphea heterophylla (Cht) FATB2c (G76D, S78P variant) coding DNA sequence  codon optimized for Prototheca moriformis ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCTCCGGCACCTCCCCCAAGCCC GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG CTCCCTGAACACCAAGGAGGACACCCCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCG ACTGGAACCGCCTGCGCACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTG GACCGCAAGTCCAAGAAGCCCGACATGCACGTGGACTGGTTCGGCCTGGAGATCATCGTGCAGGACG GCCTGGTGTTCCGCGAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCG AGACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGAC GGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCAT GGTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGA TCGGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCC ATCTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGAT CGCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACG TGAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAGCA CGTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCAGG AGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACC GCCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCAC CGACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACC GGCAAGACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 55 Cuphea heterophylla (Cht) FATB2d (S21P, T28N, L30P, S33L, G76D, R97L,  H124L, W127L, I132S, K258N, C303R, E309G, K334T, T386A variant)  amino acid sequence MVVAAAASSAFFPVPAPGTTSKPGKFGNWPSSLSPSFKPKSNPNGGFQVKANASAHPKANGSAVSLKSGSL NTQEDTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDLFGLESIVQDGLVFRES YSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVNRYPTWG DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVDAPPVIE DNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRRECGR ESVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS* SEQ ID NO: 56 Cuphea heterophylla (Cht) FATB2d (S21P, T28N, L30P, S33L, G76D, R97L,  H124L, W127L, I132S, K258N, C303R, E309G, K334T, T386A variant)  coding DNA sequence ATGGTGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGTTCCAGCACCTGGAACCACGTCTAAACCC GGGAAGTTCGGCAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGCCCAAGTCAAACCCCAATGGTGG ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCGGTAAGTCTAAAGTCTG GCAGCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGACATTCCTTAACCAGTTGCCTG ATTGGAGTAGGCTTCTGACTGCAATCTCGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC GATCGAAAATCTAAGAGGCCTGACATGCTCGTGGACTTGTTTGGGTTGGAGAGTATTGTTCAGGATGG GCTCGTGTTCAGAGAGAGTTATTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG AAACGTTGATGAACCATTTGCAGGACACATCTTTGAACCATTGTAAGAGTGTGGGTCTTCTCAATGAC GGCTTTGGTCGTACCCCGGAGATGTGTAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCAT GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC ATTTGGGCCATGATGAATCAAAATACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGAT AGCGCCTCATTTTGTTGACGCTCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATGT GAAGACTGGTGATTCCATTCGCAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACG TAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAACAGAAGTTTTGGAGACCCAGGA GCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGAAAGTGTGCTGGAGTCCGTGACCG CTATGAATCCCTCAAAAGTTGGAGACCGGTCTCAGTACCAGCACCTTCTACGGCTTGAGGATGGGGCT GATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACAG GAAAGACTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 57 Cuphea heterophylla (Cht) FATB2d (S21P, T28N, L30P, S33L, G76D, R97L,  H124L, W127L, I132S, K258N, C303R, E309G, K334T, T386A variant)  coding DNA sequence codon optimized for Prototheca moriformis ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCACCTCCAAGCCC GGCAAGTTCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCCAAGTCCAACCCCAACGGCGG CTTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCG GCTCCCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCG ACTGGTCCCGCCTGCTGACCGCCATCTCCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTG GACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACCTGTTCGGCCTGGAGTCCATCGTGCAGGACGG CCTGGTGTTCCGCGAGTCCTACTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGA GACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGACG GCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCATG GTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGAT CGGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCA TCTGGGCCATGATGAACCAGAACACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATC GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT GAAGACCGGCGACTCCATCCGCAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCAC GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGA GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCGTGACCG CCATGAACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCC GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCG GCAAGACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 58 Cuphea heterophylla (Cht) FATB2e (G76D, R97L, H124L, I132S, G152S,  H165L, T211N, K258N, C303R, E309G, K334T, T386A variant) amino acid  sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL NTQEDTSSSPPPQTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQDGLVFRE SYSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNRYPNWG DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVDAPPVIE DNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRRECGR DSVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS* SEQ ID NO: 59 Cuphea heterophylla (Cht) FATB2e (G76D, R97L, H124L, I132S, G152S,  H165L, T211N, K258N, C303R, E309G, K334T, T386A variant) coding DNA  sequence ATGGTGGTGGCTGCTGCAGCAAGCTCTGCATTCTTCCCTGTTCCGGCATCTGGAACCTCCCCTAAACCC GGGAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTG GCAGCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCAGACATTCCTTAACCAGTTGCCTG ATTGGAGTAGGCTTCTGACAGCAATCTCGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC GATCGAAAATCTAAAAGGCCTGACATGCTCGTGGACTGGTTTGGGTTGGAGAGTATTGTTCAGGATGG GCTCGTGTTCAGAGAGAGTTATTCGATCAGGTCTTACGAAATAAGCGCTGATCGAACAGCCTCTATAG AGACGGTGATGAACCTCTTGCAGGAAACATCTCTCAATCATTGTAAGAGTATGGGTATTCTCAATGAC GGCTTTGGTCGTACCCCGGAGATGTGCAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCTT GGTGAATCGCTATCCAAATTGGGGTGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC ATTTGGGCCATGATGAATCAAAATACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGAT AGCGCCTCATTTTGTTGACGCTCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATGT GAAGACTGGTGATTCCATTCGCAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACG TAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAACAGAAGTTTTGGAGACCCAGGA GCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCCGTGACCG CTATGAATCCCTCAAAAGTTGGAGACCGGTCTCAGTACCAGCACCTTCTACGGCTTGAGGATGGGGCT GATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACAG GAAAGACTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 60 Cuphea heterophylla (Cht) FATB2e (G76D, R97L, H124L, I132S, G152S,  H165L, T211N, K258N, C303R, E309G, K334T, T386A variant) coding DNA  sequence codon optimized for Prototheca moriformis ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCTCCGGCACCTCCCCCAAGCCC GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG CTCCCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCAGACCTTCCTGAACCAGCTGCCCGA CTGGTCCCGCCTGCTGACCGCCATCTCCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTGG ACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTGGTTCGGCCTGGAGTCCATCGTGCAGGACGGC CTGGTGTTCCGCGAGTCCTACTCCATCCGCTCCTACGAGATCTCCGCCGACCGCACCGCCTCCATCGAG ACCGTGATGAACCTGCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCATGGGCATCCTGAACGACGG CTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCCTGG TGAACCGCTACCCCAACTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGATC GGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCAT CTGGGCCATGATGAACCAGAACACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATCG CCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTG AAGACCGGCGACTCCATCCGCAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCACG TGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGAG CTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGC CATGAACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCG ACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGG CAAGACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 61 Cuphea heterophylla (Cht) FATB2f (R97L, H124L, I132S, G152S, H165L,  T211N variant) amino acid sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL NTQEGTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQDGLVFRES YSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNRYPNWGD TVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPVIED NDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGRD SVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS* SEQ ID NO: 62 Cuphea heterophylla (Cht) FATB2f (R97L, H124L, I132S, G152S, H165L,  T211N variant) coding DNA sequence ATGGTGGTGGCTGCTGCAGCAAGCTCTGCATTCTTCCCTGTTCCGGCATCTGGAACCTCCCCTAAACCC GGGAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG ATTTCAGGTTAAAGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCCGCAGTAAGTCTAAAGTCTG GCAGCCTCAACACTCAGGAGGGCACTTCGTCGTCCCCTCCTCCTCGGACATTCCTTAACCAGTTGCCTG ATTGGAGTAGGCTTCTGACTGCAATCTCGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC GATCGAAAATCTAAGAGGCCTGACATGCTCGTGGACTGGTTTGGGTTGGAGAGTATTGTTCAGGATGG GCTCGTGTTCAGAGAGAGTTATTCGATCAGGTCTTACGAAATAAGCGCTGATCGAACAGCCTCTATAG AGACGGTGATGAACCTCTTGCAGGAAACATCTCTCAATCATTGTAAGAGTATGGGTATTCTCAATGAC GGCTTTGGTCGTACCCCGGAGATGTGCAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCTT GGTGAATCGCTATCCAAATTGGGGTGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAATGAGGTTCGCCAGGAGAT AGCGCCTCATTTTGTGGACGCCCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATGT GAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAACGACTTGGATGTCAATCAGCACG TAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGGA GCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCTGTGACCG CTATGGATCCCTCAAAAGTTGGAGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGACT GATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACAG GAAAGACTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 63 Cuphea heterophylla (Cht) FATB2f (R97L, H124L, I132S, G152S, H165L,  T211N variant) coding DNA sequence codon optimized for Prototheca  moriformis ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCTCCGGCACCTCCCCCAAGCCC GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG CTCCCTGAACACCCAGGAGGGCACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCGA CTGGTCCCGCCTGCTGACCGCCATCTCCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTGG ACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTGGTTCGGCCTGGAGTCCATCGTGCAGGACGGC CTGGTGTTCCGCGAGTCCTACTCCATCCGCTCCTACGAGATCTCCGCCGACCGCACCGCCTCCATCGAG ACCGTGATGAACCTGCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCATGGGCATCCTGAACGACGG CTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCCTGG TGAACCGCTACCCCAACTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGATC GGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCAT CTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATC GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT GAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAGCAC GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCAGGA GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCG CCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACC GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCG GCAAGACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 64 Cuphea heterophylla (Cht) FATB2g (A6T, A16V, S17P, G76D, R97L,  H124L, I132S, S143I, G152S, A157T, H165L, T211N, G414A variant)  amino acid sequence MVVAATASSAFFPVPVPGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL NTQEDTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQDGLVFREI YSIRSYEISADRTTSIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNRYPNWGD TVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPVIED NDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGRD SVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNANSVS* SEQ ID NO: 65 Cuphea heterophylla (Cht) FATB2g (A6T, A16V, S17P, G76D, R97L, H124L,  I132S, S143I, G152S, A157T, H165L, T211N, G414A variant) coding DNA  sequence ATGGTGGTGGCTGCTACAGCAAGTTCTGCATTCTTCCCTGTTCCTGTACCTGGAACCTCCCCTAAACCC GGAAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTG GCAGCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGACATTCCTTAACCAGTTGCCTG ATTGGAGTAGGCTTCTGACTGCAATCTCGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC GATCGAAAATCTAAGAGGCCTGACATGCTCGTGGACTGGTTTGGGTTGGAGAGTATTGTTCAGGATGG GCTCGTGTTCAGAGAGATTTATTCGATCAGGTCTTACGAAATAAGCGCTGATCGAACAACCTCTATAG AGACGGTGATGAACCTCTTGCAGGAAACATCTCTCAATCATTGTAAGAGTATGGGTATTCTCAATGAC GGCTTTGGTCGTACCCCGGAGATGTGCAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCTT GGTGAATCGCTATCCAAATTGGGGTGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGA TAGCGCCTCATTTTGTGGACGCCCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATG TGAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAATGACTTGGATGTCAATCAGCAC GTAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGG AGCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCTGTGACC GCTATGGATCCCTCAAAAGTTGGAGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGAC TGATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACA GGAAAGACTTCAAATGCAAACTCGGTCTCTTAG SEQ ID NO: 66 Cuphea heterophylla (Cht) FATB2g (A6T, A16V, S17P, G76D, R97L, H124L,  I132S, S143I, G152S, A157T, H165L, T211N, G414A variant) coding DNA  sequence codon optimized for Prototheca moriformis ATGGTGGTGGCCGCCACCGCCTCCTCCGCCTTCTTCCCCGTGCCCGTGCCCGGCACCTCCCCCAAGCCC GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG CTCCCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCGA CTGGTCCCGCCTGCTGACCGCCATCTCCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTGG ACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTGGTTCGGCCTGGAGTCCATCGTGCAGGACGGC CTGGTGTTCCGCGAGATCTACTCCATCCGCTCCTACGAGATCTCCGCCGACCGCACCACCTCCATCGAG ACCGTGATGAACCTGCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCATGGGCATCCTGAACGACGG CTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCCTGG TGAACCGCTACCCCAACTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGATC GGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCAT CTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATC GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT GAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAGCAC GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCAGGA GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCG CCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACC GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCG GCAAGACCTCCAACGCCAACTCCGTGTCCTGA SEQ ID NO: 67 Cuphea heterophylla (Cht) FATB3a amino acid sequence MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKSCSLKTH EDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGLVFRQNF SIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWG DTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHFVDSAPV IEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECG RESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS* SEQ ID NO: 68 Cuphea heterophylla (Cht) FATB3a coding DNA sequence ATGGTGGCCACCGCTGCAAGTTCTGCATTCTTCCCGGTGCCGTCCCCGGACACCTCCTCTAGACCGGGA AAGCTCGGAAATGGGTCATCAAGCTTGAGGCCCCTCAAGCCCAAATTTGTTGCCAATGCTGGGCTGCA GGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCCTCGGTCAGTCTAAAGTCTTGCAGTCT CAAGACTCATGAAGACACTCCTTCAGCTCCTCCTCCGCGGACTTTTATCAACCAGTTGCCTGATTGGAG CATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCAGCAGAGAAGCAGTGGATGATGCTTGATTGGAA ACCAAAGAGGCCTGACATGCTTGTGGACCCGTTCGGATTGGGAAGGATTGTTCAGGATGGGCTTGTGT TCAGGCAGAATTTTTCGATTAGGTCCTATGAAATAGGCGCTGATCGCACTGCATCCATAGAGACGGTG ATGAACCACTTGCAGGAAACGGCTCTCAATCATGTTAAGAGTGCGGGGCTTCTTAATGAAGGCTTTGG TCGTACTCCTGAGATGTATAAAAGGGACCTTATTTGGGTTGTCGCGAAAATGCAGGTCATGGTTAACC GCTATCCTACTTGGGGTGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTATG CGTCGTGATTGGCTCATAAGTGATTGCAATACAGGAGAAATTCTTACAAGGGCATCAAGTGTGTGGGT CATGATGAATCAAAAGACAAGAAAATTGTCAAAGATTCCAGATGAGGTTCGGCATGAGATAGAGCCT CATTTTGTGGACTCTGCTCCCGTCATTGAAGACGATGACTGGAAACTTCCCAAGCTGGATGAGAAAAC TGCTGACTCCATCCGCAAGGGTCTAACTCCGAAGTGGAATGACTTGGATGTCAATCAGCACGTCAACA ACGTGAAGTACATTGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATGT TCCCTTACCCTGGAATACAGGCGGGAATGCGGAAGGGAGAGTGTGCTGGAGTCCCTCACTGCTGTGGA CCCCTCTGGAAAGGGCTTTGGGCCCCAGTTTCAGCACCTTCTGAGGCTTGAGGATGGAGGTGAGATCG TAAAGGGGAGAACTGAGTGGCGACCCAAGACTGCAGGTATCAATGGGACGATTGCATCTGGGGAGAC CTCACCTGGAAACTCTTAG SEQ ID NO: 69 Cuphea heterophylla (Cht) FATB3a coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACACCTCCTCCCGCCCCGGC AAGCTGGGCAACGGCTCCTCCTCCCTGCGCCCCCTGAAGCCCAAGTTCGTGGCCAACGCCGGCCTGCA GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGTCCCTGAAGTCCTGCTCCCT GAAGACCCACGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGGT CCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTGG AAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCCGCATCGTGCAGGACGGCCTGGT GTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACCG TGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGAACGAGGGCTTC GGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTGA ACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACGG CATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGTGT GGGTGATGATGAACCAGAAGACCCGCAAGCTGTCCAAGATCCCCGACGAGGTGCGCCACGAGATCGA GCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACTGGAAGCTGCCCAAGCTGGACGAGA AGACCGCCGACTCCATCCGCAAGGGCCTGACCCCCAAGTGGAACGACCTGGACGTGAACCAGCACGT GAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAG CTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGC CGTGGACCCCTCCGGCAAGGGCTTCGGCCCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCG AGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCACCATCGCCTCCGG CGAGACCTCCCCCGGCAACTCCTGA SEQ ID NO: 70 Cuphea heterophylla (Cht) FATB3b (C67G, H72Q, L128F, N179I variant)  amino acid sequence MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKSGSLKTQ EDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGFGRIVQDGLVFRQNF SIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLIEGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWGD TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHFVDSAPVI EDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECG RESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS* SEQ ID NO: 71 Cuphea heterophylla (Cht) FATB3b (C67G, H72Q, L128F, N179I variant)  coding DNA sequence ATGGTGGCCACCGCTGCAAGTTCTGCATTCTTCCCGGTGCCATCCCCGGACACCTCCTCTAGACCGGGA AAGCTCGGAAATGGGTCATCAAGCTTGAGGCCCCTCAAGCCCAAATTTGTTGCCAATGCTGGGCTGCA GGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCCTCGGTCAGTCTAAAGTCTGGCAGTC TCAAGACTCAGGAAGACACTCCTTCGGCTCCTCCTCCGCGGACTTTTATCAACCAGTTGCCTGATTGGA GCATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCAGCAGAGAAGCAGTGGATGATGCTTGATTGGA AACCAAAGAGGCCTGACATGCTTGTGGACCCGTTCGGATTTGGAAGGATTGTTCAGGATGGGCTTGTG TTCAGGCAGAATTTTTCGATTAGGTCCTATGAAATAGGCGCTGATCGCACTGCATCTATAGAGACGGT GATGAACCACTTGCAGGAAACGGCTCTCAATCATGTTAAGAGTGCGGGGCTTCTTATTGAAGGCTTTG GTCGTACTCCTGAGATGTATAAAAGGGACCTTATTTGGGTTGTCGCGAAAATGCAGGTCATGGTTAAC CGCTATCCTACTTGGGGTGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTAT GCGTCGTGATTGGCTCATAAGTGATTGCAATACAGGAGAAATTCTTACTAGAGCATCAAGTGTGTGGG TCATGATGAATCAAAAGACAAGAAAATTGTCAAAGATTCCAGATGAGGTTCGGCATGAGATAGAGCC TCATTTTGTGGACTCTGCTCCCGTCATTGAAGACGATGACTGGAAACTTCCCAAGCTGGATGAGAAAA CTGCTGACTCCATCCGCAAGGGTCTAACTCCGAAGTGGAATGACTTGGATGTCAATCAGCACGTCAAC AACGTGAAGTACATTGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATG TTCCCTTACCCTGGAATACAGGCGGGAATGCGGAAGGGAGAGTGTGCTGGAGTCCCTCACTGCTGTGG ACCCCTCTGGAAAGGGCTTTGGGCCCCAGTTTCAGCACCTTCTGAGGCTTGAGGATGGAGGTGAGATC GTAAAGGGGAGAACTGAGTGGCGACCCAAGACTGCAGGTATCAATGGGACGATTGCATCTGGGGAGA CCTCACCTGGAAACTCTTAG SEQ ID NO: 72 Cuphea heterophylla (Cht) FATB3b (C67G, H72Q, L128F, N179I variant)  coding DNA sequence codon optimized for Prototheca moriformis ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACACCTCCTCCCGCCCCGGC AAGCTGGGCAACGGCTCCTCCTCCCTGCGCCCCCTGAAGCCCAAGTTCGTGGCCAACGCCGGCCTGCA GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGTCCCTGAAGTCCGGCTCCC TGAAGACCCAGGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG TCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTG GAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCTTCGGCCGCATCGTGCAGGACGGCCTGG TGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC GTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGATCGAGGGCTT CGGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTG AACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACG GCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGTG TGGGTGATGATGAACCAGAAGACCCGCAAGCTGTCCAAGATCCCCGACGAGGTGCGCCACGAGATCG AGCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACTGGAAGCTGCCCAAGCTGGACGAG AAGACCGCCGACTCCATCCGCAAGGGCCTGACCCCCAAGTGGAACGACCTGGACGTGAACCAGCACG TGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGA GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCG CCGTGGACCCCTCCGGCAAGGGCTTCGGCCCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGC GAGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCACCATCGCCTCCG GCGAGACCTCCCCCGGCAACTCCTGA SEQ ID NO: 73 Cuphea viscosissima (Cvis) FATB1 amino acid sequence MVAAAATSAFFPVPAPGTSPKPGKSGNWPSSLSPTFKPKSIPNGGFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKSIVRDGLVSRHS FSIRSYEIGADRTASIETLMNHLQETTINHCKSLGLHNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWGD TVEINTWFSQSGKIGMASDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIED NDQKLRKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGMD SVLESVTAVDPSENGGRSQYKHLLRLEDGTDIVKSRTEWRPKNAGTNGAISTSTAKTSNGNSVS SEQ ID NO: 74 Cuphea viscosissima (Cvis) FATB1 coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCGCCGCCGCCACCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAAGCCCGGC AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCACCTTCAAGCCCAAGTCCATCCCCAACGGCGGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG GTCCATGCTGCTGACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGTCCATCGTGCGCGACGGCCTG GTGTCCCGCCACTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC CTGATGAACCACCTGCAGGAGACCACCATCAACCACTGCAAGTCCCTGGGCCTGCACAACGACGGCTT CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA ACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC ATGGCCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCAGAAGCTGCGCAAGTTCGACGTGAAG ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGACCCAGGAGCTGT GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCGTG GACCCCTCCGAGAACGGCGGCCGCTCCCAGTACAAGCACCTGCTGCGCCTGGAGGACGGCACCGACA TCGTGAAGTCCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCTCCACC GCCAAGACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 75 Cuphea viscosissima (Cvis) FATB2 amino acid sequence MVATAASSAFFPVPSADTSSRPGKLGNGPSSFSPLKPKSIPNGGLQVKASASAPPKINGSSVGLKSGGLKTH DDAPSAPPPRTFINQLPDWSMLLAAITTAFLAAEKQWMMLDRKPKRLDMLEDPFGLGRVVQDGLVFRQNF SIRSYEIGADRTASIETVMNHLQETALNHVKTAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWG DTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRREIEPHFVDSAPV IEDDDRKLPKLDEKSADSIRKGLTPRWNDLDVNQHVNNAKYIGWILESTPPEVLETQELCSLTLEYRRECGR ESVLESLTAVDPSGEGYGSQFQHLLRLEDGGEIVKGRTEWRPKNAGINGVVPSEESSPGDYS SEQ ID NO: 76 Cuphea viscosissima (Cvis) FATB2 coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCGCCGACACCTCCTCCCGCCCCGGC AAGCTGGGCAACGGCCCCTCCTCCTTCTCCCCCCTGAAGCCCAAGTCCATCCCCAACGGCGGCCTGCA GGTGAAGGCCTCCGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCGGCC TGAAGACCCACGACGACGCCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG TCCATGCTGCTGGCCGCCATCACCACCGCCTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACCG CAAGCCCAAGCGCCTGGACATGCTGGAGGACCCCTTCGGCCTGGGCCGCGTGGTGCAGGACGGCCTG GTGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGAC CGTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGACCGCCGGCCTGTCCAACGACGGC TTCGGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGT GAACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAAC GGCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGT GTGGGTGATGATGAACCAGAAGACCCGCAAGCTGTCCAAGATCCCCGACGAGGTGCGCCGCGAGATC GAGCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACCGCAAGCTGCCCAAGCTGGACGA GAAGTCCGCCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCAC GTGAACAACGCCAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGG AGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACC GCCGTGGACCCCTCCGGCGAGGGCTACGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGG CGAGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCATCAACGGCGTGGTGCCCTCC GAGGAGTCCTCCCCCGGCGACTACTCCTGA SEQ ID NO: 77 Cuphea viscosissima (Cvis) FATB3 amino acid sequence MVAAAASSAFFSFPTPGTSPKPGKFGNWPSSLSIPFNPKSNHNGGIQVKANASAHPKANGSAVSLKAGSLET QEDTSSPSPPPRTFISQLPDWSMLVSAITTVFVAAEKQWTMLDRKSKRPDVLVEPFVQDGVSFRQSFSIRSYE IGVDRTASIETLMNIFQETSLNHCKSLGLLNDGFGRTPEMCKRDLIWVVTKMQIEVNRYPTWGDTIEVTTW VSESGKNGMSRDWLISDCHSGEILIRATSVWAMMNQKTRRLSKIPDEVRQEIVPYFVDSAPVIEDDRKLHK LDVKTGDSIRNGLTPRWNDFDVNQHVNNVKYIAWLLKSVPTEVFETQELCGLTLEYRRECRRDSVLESVT AMDPSKEGDRSLYQHLLRLENGADIALGRTEWRPKNAGATGAVSTGKTSNGNSVS SEQ ID NO: 78 Cuphea viscosissima (Cvis) FATB3 coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCTTCCCCACCCCCGGCACCTCCCCCAAGCCCGGC AAGTTCGGCAACTGGCCCTCCTCCCTGTCCATCCCCTTCAACCCCAAGTCCAACCACAACGGCGGCATC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGGCCGGCTC CCTGGAGACCCAGGAGGACACCTCCTCCCCCTCCCCCCCCCCCCGCACCTTCATCTCCCAGCTGCCCGA CTGGTCCATGCTGGTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGG ACCGCAAGTCCAAGCGCCCCGACGTGCTGGTGGAGCCCTTCGTGCAGGACGGCGTGTCCTTCCGCCAG TCCTTCTCCATCCGCTCCTACGAGATCGGCGTGGACCGCACCGCCTCCATCGAGACCCTGATGAACATC TTCCAGGAGACCTCCCTGAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTTCGGCCGCACCCC CGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATGCAGATCGAGGTGAACCGCTACCCC ACCTGGGGCGACACCATCGAGGTGACCACCTGGGTGTCCGAGTCCGGCAAGAACGGCATGTCCCGCG ACTGGCTGATCTCCGACTGCCACTCCGGCGAGATCCTGATCCGCGCCACCTCCGTGTGGGCCATGATG AACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCCAGGAGATCGTGCCCTACTTCGT GGACTCCGCCCCCGTGATCGAGGACGACCGCAAGCTGCACAAGCTGGACGTGAAGACCGGCGACTCC ATCCGCAACGGCCTGACCCCCCGCTGGAACGACTTCGACGTGAACCAGCACGTGAACAACGTGAAGT ACATCGCCTGGCTGCTGAAGTCCGTGCCCACCGAGGTGTTCGAGACCCAGGAGCTGTGCGGCCTGACC CTGGAGTACCGCCGCGAGTGCCGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGACCCCTCCAA GGAGGGCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGAACGGCGCCGACATCGCCCTGGGCC GCACCGAGTGGCGCCCCAAGAACGCCGGCGCCACCGGCGCCGTGTCCACCGGCAAGACCTCCAACGG CAACTCCGTGTCCTGA SEQ ID NO: 79 Cuphea calcarata (Ccalc) FATB1 amino acid sequence MVAASASSAFFSVPTPGTSPKPGKFGNWPSSLSVPFKPRSNNSGGFQVKANASAHPKANGSAVSLKSGSLE TQEDNSSSSRPPRTFIKQLPDWSMLLSAITTVFVAAEKQWTMFDRKSKRSDMLVDPFVVDRIVQDGVLFRQ SFSIRSYEIGADRTASIETLMNIFQETSLNHCKSMGLLYEGFGRTPEMCKRDLIWVVTKIHIKVNRYPTWGD TIEVTTWVSESGKNGMGRDWLISDCHTGEILIRATSVWAMMNQTTRRLSKFPYELRQEIAPHFVDSDPVIED NRRLLNFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFDTRELCGLTLEYRQECGRGS VLESVTAMDPSKEGDRSLYQHLLRLEDGTDIVKGRTEWRPKNAGTNGPVSTRKTTNGSSVS SEQ ID NO: 80 Cuphea calcarata (Ccalc) FATB1 coding DNA sequence ATGGTGGCTGCTTCAGCAAGTTCTGCATTCTTCTCCGTCCCAACCCCGGGAACCTCTCCTAAACCCGGG AAGTTCGGCAATTGGCCATCGAGCTTGAGCGTCCCATTCAAGCCCAGATCAAACAACAGTGGCGGCTT TCAGGTTAAGGCAAACGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTGGGA GCCTCGAGACTCAGGAGGACAATTCGTCGTCGTCTCGTCCTCCTCGGACTTTCATTAAACAGTTGCCGG ACTGGAGTATGCTTCTTTCCGCGATCACAACCGTCTTCGTGGCGGCTGAGAAGCAGTGGACGATGTTT GATCGGAAATCTAAGAGGTCTGACATGCTCGTGGACCCGTTTGTGGTTGACAGGATTGTTCAGGATGG GGTTCTGTTCAGACAGAGTTTTTCGATTAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATTGA GACGCTGATGAACATCTTCCAGGAAACATCTCTCAATCATTGTAAGAGTATGGGTCTTCTCTATGAAG GCTTTGGTCGTACTCCTGAGATGTGTAAGAGGGACCTCATTTGGGTGGTTACGAAAATACATATCAAG GTGAATCGCTATCCGACTTGGGGTGATACTATCGAGGTCACTACTTGGGTCTCCGAGTCGGGCAAAAA CGGTATGGGTCGCGATTGGCTGATAAGTGATTGCCATACAGGAGAAATTCTTATAAGAGCAACGAGTG TGTGGGCTATGATGAATCAAACGACGAGAAGATTGTCGAAATTTCCATATGAGCTTCGACAGGAGATA GCGCCACATTTTGTGGACTCGGATCCTGTCATTGAAGACAATCGAAGATTGCTCAACTTTGATGTGAA GACGGGTGATTCCATTCGCAAGGGTCTAACTCCAAGGTGGAATGACTTGGATGTCAATCAGCACGTTA ACAATGTGAAGTACATTGGGTGGATTCTCGAGAGTGTTCCAACAGAAGTTTTCGATACCCGGGAGCTA TGCGGCCTCACCCTTGAGTATAGGCAGGAATGCGGAAGAGGAAGTGTGCTGGAGTCCGTGACCGCTAT GGATCCCTCAAAAGAGGGAGACCGGTCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGACTGATA TCGTGAAGGGCAGAACCGAGTGGCGGCCAAAGAATGCAGGAACCAATGGGCCAGTATCAACAAGAA AGACTACAAATGGAAGCTCAGTCTCTTAG SEQ ID NO: 81 Cuphea calcarata (Ccalc) FATB1 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCGCCTCCGCCTCCTCCGCCTTCTTCTCCGTGCCCACCCCCGGCACCTCCCCCAAGCCCGGC AAGTTCGGCAACTGGCCCTCCTCCCTGTCCGTGCCCTTCAAGCCCCGCTCCAACAACTCCGGCGGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCTC CCTGGAGACCCAGGAGGACAACTCCTCCTCCTCCCGCCCCCCCCGCACCTTCATCAAGCAGCTGCCCG ACTGGTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGTTC GACCGCAAGTCCAAGCGCTCCGACATGCTGGTGGACCCCTTCGTGGTGGACCGCATCGTGCAGGACGG CGTGCTGTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGA GACCCTGATGAACATCTTCCAGGAGACCTCCCTGAACCACTGCAAGTCCATGGGCCTGCTGTACGAGG GCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATCCACATCAAG GTGAACCGCTACCCCACCTGGGGCGACACCATCGAGGTGACCACCTGGGTGTCCGAGTCCGGCAAGA ACGGCATGGGCCGCGACTGGCTGATCTCCGACTGCCACACCGGCGAGATCCTGATCCGCGCCACCTCC GTGTGGGCCATGATGAACCAGACCACCCGCCGCCTGTCCAAGTTCCCCTACGAGCTGCGCCAGGAGAT CGCCCCCCACTTCGTGGACTCCGACCCCGTGATCGAGGACAACCGCCGCCTGCTGAACTTCGACGTGA AGACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGT GAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCGTGCCCACCGAGGTGTTCGACACCCGCGAGC TGTGCGGCCTGACCCTGGAGTACCGCCAGGAGTGCGGCCGCGGCTCCGTGCTGGAGTCCGTGACCGCC ATGGACCCCTCCAAGGAGGGCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCACCGA CATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCCCCGTGTCCACCCGC AAGACCACCAACGGCTCCTCCGTGTCCTGA SEQ ID NO: 82 Cuphea painteri (Cpai) FATB1 amino acid sequence MVAAAATSAFFPVPAPGTSPNPRKFGSWPSSLSPSLPKSIPNGGFQVKANASAHPKANGSAVSLKSGSLNTQ ENTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQSFSIRS YEIGTDRTASIETLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEINT RFSRLGKIGMGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLKVH KFEVKTGDSIQKGLSPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVT AMDPSKVGGRSQYQHLLRLEDGTAIVNGITEWRPKNAGANGAISTGKTSNGNSVS SEQ ID NO: 83 Cuphea painteri (Cpai) FATB1 coding DNA sequence ATGGTGGCTGCTGCAGCAACTTCTGCATTCTTCCCTGTTCCAGCCCCGGGAACCTCCCCAAATCCCAGG AAATTCGGAAGTTGGCCATCGAGCTTGAGCCCTTCCTTGCCCAAGTCAATCCCCAATGGCGGATTTCA GGTAAAGGCAAATGCCAGTGCCCATCCGAAGGCTAACGGTTCTGCAGTTAGTCTAAAGTCTGGCAGCC TCAACACTCAGGAGAACACTTCGTCGTCCCCTCCTCCTCGGACTTTCCTTCACCAGTTGCCTGATTGGA GTAGGCTTCTGACTGCAATCACGACCGTGTTCGTGAAATCTAAGAGGCCTGACATGCATGATCGGAAA TCTAAGAGGCCTGACATGCTGGTGGACTTGTTTGGGTTGGAAAGTAGTGTTCAGGATGCGCTCGTGTTC AGACAGAGTTTTTCGATTAGGTCTTATGAAATAGGCACTGATCGAACAGCCTCTATAGAGACGCTGAT GAACCACTTGCAGGAAACATCTCTCAATCATTGTAAAAGTACCGGTATTCTCCTTGACGGCTTCGGTCG TACTCTTGAGATGTGTAAAAGGGAACTCATTTGGGTGGTAATAAAAATGCAAATTCAGGTGAATCGCT ATCCAGCATGGGGCGATACTGTCGAGATCAATACCCGGTTCTCCCGGTTGGGGAAAATTGGTATGGGT CGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTAATAAGAGCAACGAGCGAGTATGCCA TGATGAATCAAAAGACGAGAAGACTCTCAAAACTTCCATACGAGGTTCACCAGGAGATAGCGCCTCTT TTTGTCGACTCTCCTCCTGTGATTGAAGACAATGATCTGAAAGTGCATAAATTTGAAGTGAAGACTGGT GATTCCATTCAAAAGGGTCTATCCCCGGGGTGGAATGACTTGGATGTCAATCAGCACGTAAGCAACGT GAAGTACATTGGGTGGATTCTCGAGAGTATGCCAACAGAAGTTTTGGAGACCCAGGAGCTATGCTCTC TCGCCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCAATGGATCCC TCAAAAGTTGGAGGCCGTTCTCAGTACCAGCACCTTCTGCGGCTTGAGGATGGGACTGCTATCGTGAA CGGCATAACTGAGTGGCGGCCGAAGAATGCAGGAGCTAATGGGGCGATATCAACGGGAAAGACTTCA AATGGAAACTCGGTCTCTTAG SEQ ID NO: 84 Cuphea painteri (Cpai) FATB1 coding DNA sequence codon optimized for  Prototheca moriformis ATGGTGGCCGCCGCCGCCACCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAACCCCCGC AAGTTCGGCTCCTGGCCCTCCTCCCTGTCCCCCTCCCTGCCCAAGTCCATCCCCAACGGCGGCTTCCAG GTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCTCCCT GAACACCCAGGAGAACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGCACCAGCTGCCCGACTGGTC CCGCCTGCTGACCGCCATCACCACCGTGTTCGTGAAGTCCAAGCGCCCCGACATGCACGACCGCAAGT CCAAGCGCCCCGACATGCTGGTGGACCTGTTCGGCCTGGAGTCCTCCGTGCAGGACGCCCTGGTGTTC CGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCACCGACCGCACCGCCTCCATCGAGACCCTGATG AACCACCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCACCGGCATCCTGCTGGACGGCTTCGGCCG CACCCTGGAGATGTGCAAGCGCGAGCTGATCTGGGTGGTGATCAAGATGCAGATCCAGGTGAACCGCT ACCCCGCCTGGGGCGACACCGTGGAGATCAACACCCGCTTCTCCCGCCTGGGCAAGATCGGCATGGGC CGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGAGTACGCCAT GATGAACCAGAAGACCCGCCGCCTGTCCAAGCTGCCCTACGAGGTGCACCAGGAGATCGCCCCCCTGT TCGTGGACTCCCCCCCCGTGATCGAGGACAACGACCTGAAGGTGCACAAGTTCGAGGTGAAGACCGG CGACTCCATCCAGAAGGGCCTGTCCCCCGGCTGGAACGACCTGGACGTGAACCAGCACGTGTCCAACG TGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGAGCTGTGCTCC CTGGCCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGACCC CTCCAAGGTGGGCGGCCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACCGCCATCGTGA ACGGCATCACCGAGTGGCGCCCCAAGAACGCCGGCGCCAACGGCGCCATCTCCACCGGCAAGACCTC CAACGGCAACTCCGTGTCCTGA SEQ ID NO: 85 Cuphea hookeriana (Chook) FATB4 amino acid sequence MVAAAATSAFFPVPAPGTSPNPRKFGSWPSSLSPSLPNSIPNGGFQVKANASAHPKANGSAVSLKSGSLNTQ ENTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQRFSIR SYEIGTDRTASMETLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEI NTRFSRLGKIGMGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVRQEIAPLFVDSPPVIEDNDLK VHKFEVKTGDSIHKGLTPGWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRESVLES LTAMDPSGGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNGVINGVVPTGESSPGDYS SEQ ID NO: 86 Cuphea hookeriana (Chook) FATB4 coding DNA sequence ATGGTGGCTGCTGCAGCAACTTCTGCATTCTTCCCTGTTCCAGCCCCGGGAACCTCCCCTAATCCCAGG AAATTCGGAAGTTGGCCATCGAGCTTGAGCCCTTCCTTGCCCAACTCAATCCCCAATGGCGGATTTCAG GTAAAGGCAAATGCCAGTGCCCATCCGAAGGCTAACGGTTCTGCAGTTAGTCTAAAGTCTGGCAGCCT CAACACTCAGGAGAACACTTCGTCGTCCCCTCCTCCTCGGACTTTCCTTCACCAGTTGCCTGATTGGAG TAGGCTTCTGACTGCAATCACGACCGTGTTCGTGAAATCTAAGAGGCCTGACATGCATGATCGGAAAT CTAAGAGGCCTGACATGCTGGTGGACTTGTTTGGGTTGGAGAGTAGTGTTCAGGATGCGCTCGTGTTC AGACAGAGATTTTCGATTAGGTCTTATGAAATAGGCACTGATCGAACAGCCTCTATGGAGACGCTGAT GAACCACTTGCAGGAAACATCTCTCAATCATTGTAAAAGTACCGGTATTCTCCTTGACGGCTTCGGTCG TACTCTTGAGATGTGTAAAAGGGAACTCATTTGGGTGGTAATAAAAATGCAGATTCAGGTGAATCGCT ATCCAGCATGGGGCGATACTGTCGAGATCAATACCCGGTTCTCCCGGTTGGGGAAAATTGGTATGGGT CGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGAGTATGCCAT GATGAATCAAAAGACGAGAAGACTCTCAAAACTTCCATACGAGGTTCGCCAGGAGATAGCGCCTCTTT TTGTCGACTCTCCTCCTGTGATTGAAGACAATGATCTGAAAGTGCATAAATTTGAAGTGAAGACTGGT GATTCCATTCACAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACGTCAACAACGT GAAGTACATCGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATGTTCCC TTACTCTGGAATACAGGCGGGAATGTGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTATGGATCCC TCTGGAGGGGGTTATGGGTCCCAGTTTCAGCACCTTCTGCGGCTTGAGGATGGAGGTGAGATCGTGAA GGGGAGAACCGAGTGGCGACCCAAGAATGGTGTAATCAATGGGGTGGTACCAACCGGGGAGTCCTCA CCTGGAGACTACTCTTAG SEQ ID NO: 87 Cuphea hookeriana (Chook) FATB4 coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCGCCGCCGCCACCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAACCCCCGC AAGTTCGGCTCCTGGCCCTCCTCCCTGTCCCCCTCCCTGCCCAACTCCATCCCCAACGGCGGCTTCCAG GTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCTCCCT GAACACCCAGGAGAACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGCACCAGCTGCCCGACTGGTC CCGCCTGCTGACCGCCATCACCACCGTGTTCGTGAAGTCCAAGCGCCCCGACATGCACGACCGCAAGT CCAAGCGCCCCGACATGCTGGTGGACCTGTTCGGCCTGGAGTCCTCCGTGCAGGACGCCCTGGTGTTC CGCCAGCGCTTCTCCATCCGCTCCTACGAGATCGGCACCGACCGCACCGCCTCCATGGAGACCCTGAT GAACCACCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCACCGGCATCCTGCTGGACGGCTTCGGCC GCACCCTGGAGATGTGCAAGCGCGAGCTGATCTGGGTGGTGATCAAGATGCAGATCCAGGTGAACCG CTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCCGCTTCTCCCGCCTGGGCAAGATCGGCATGG GCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGAGTACGCC ATGATGAACCAGAAGACCCGCCGCCTGTCCAAGCTGCCCTACGAGGTGCGCCAGGAGATCGCCCCCCT GTTCGTGGACTCCCCCCCCGTGATCGAGGACAACGACCTGAAGGTGCACAAGTTCGAGGTGAAGACCG GCGACTCCATCCACAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCACGTGAACAA CGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAGCTGTGCT CCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGCCATGGAC CCCTCCGGCGGCGGCTACGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCGAGATCGT GAAGGGCCGCACCGAGTGGCGCCCCAAGAACGGCGTGATCAACGGCGTGGTGCCCACCGGCGAGTCC TCCCCCGGCGACTACTCCTGA SEQ ID NO: 88 Cuphea avigera var. pulcherrima (Ca) FATB1 amino acid sequence MVAAAASSAFFSVPVPGTSPKPGKFRIWPSSLSPSFKPKPIPNGGLQVKANSRAHPKANGSAVSLKSGSLNT QEDTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLMDSFGLESIVQEGLEFRQSFSIR SYEIGTDRTASIETLMNYLQETSLNHCKSTGILLDGFGRTPEMCKRDLIWVVTKMKIKVNRYPAWGDTVEI NTWFSRLGKIGKGRDWLISDCNTGEILIRATSAYATMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLK LHKFEVKTGDSIHKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLES VTAMDPTKVGGRSQYQHLLRLEDGTDIVKCRTEWRPKNPGANGAISTGKTSNGNSVS SEQ ID NO: 89 Cuphea avigera var. pulcherrima (Ca) FATB1 coding DNA sequence ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCTCTGTTCCAGTCCCGGGAACCTCTCCTAAACCCGGG AAGTTCAGAATTTGGCCATCGAGCTTGAGCCCTTCCTTCAAGCCCAAGCCGATCCCCAATGGTGGATT GCAGGTTAAGGCAAATTCCAGGGCACATCCGAAGGCTAACGGTTCTGCAGTTAGTCTAAAGTCTGGCA GCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGACTTTCCTTCACCAGTTGCCTGATT GGAGTAGGCTTCTGACTGCAATCACGACCGTGTTCGTGAAATCTAAGAGGCCTGACATGCATGATCGG AAATCTAAGAGGCCTGACATGCTGATGGACTCGTTTGGGTTGGAGAGTATTGTTCAAGAAGGGCTCGA GTTCAGACAGAGTTTTTCGATTAGGTCTTATGAAATAGGCACTGATCGAACAGCCTCTATAGAGACGC TGATGAACTACTTGCAGGAAACATCTCTCAATCATTGTAAGAGTACCGGTATTCTCCTTGACGGCTTTG GTCGTACTCCTGAGATGTGTAAAAGGGACCTCATTTGGGTGGTAACAAAAATGAAGATCAAGGTGAAT CGCTATCCAGCTTGGGGCGATACTGTCGAGATCAATACCTGGTTCTCCCGGTTGGGGAAAATCGGAAA GGGTCGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGCGTAT GCCACGATGAATCAAAAGACGAGAAGACTCTCAAAACTTCCATACGAGGTTCACCAGGAGATAGCGC CTCTCTTTGTCGACTCTCCTCCTGTCATTGAAGACAATGATCTGAAATTGCATAAGTTTGAAGTGAAGA CTGGTGATTCCATTCACAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACGTAAGC AACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAACAGAAGTTTTGGAGACCCAGGAGCTATG CTCTCTCGCCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTAGAGTCCGTGACAGCTATGG ATCCCACAAAAGTTGGAGGCCGGTCTCAGTACCAGCACCTTCTGCGACTTGAGGATGGGACTGATATC GTGAAGTGCAGAACTGAGTGGCGGCCGAAGAATCCAGGAGCTAATGGGGCAATATCAACGGGAAAGA CTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 90 Cuphea avigera var. pulcherrima (Ca) FATB1 coding DNA sequence codon  optimized for Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCGTGCCCGTGCCCGGCACCTCCCCCAAGCCCGGC AAGTTCCGCATCTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCCAAGCCCATCCCCAACGGCGGCCTG CAGGTGAAGGCCAACTCCCGCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCTC CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGCACCAGCTGCCCGACTG GTCCCGCCTGCTGACCGCCATCACCACCGTGTTCGTGAAGTCCAAGCGCCCCGACATGCACGACCGCA AGTCCAAGCGCCCCGACATGCTGATGGACTCCTTCGGCCTGGAGTCCATCGTGCAGGAGGGCCTGGAG TTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCACCGACCGCACCGCCTCCATCGAGACCCTG ATGAACTACCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCACCGGCATCCTGCTGGACGGCTTCGG CCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATGAAGATCAAGGTGAAC CGCTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCGCCTGGGCAAGATCGGCAA GGGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGCCTACG CCACCATGAACCAGAAGACCCGCCGCCTGTCCAAGCTGCCCTACGAGGTGCACCAGGAGATCGCCCCC CTGTTCGTGGACTCCCCCCCCGTGATCGAGGACAACGACCTGAAGCTGCACAAGTTCGAGGTGAAGAC CGGCGACTCCATCCACAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCACGTGTCCA ACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGAGCTGTGC TCCCTGGCCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGA CCCCACCAAGGTGGGCGGCCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACCGACATCG TGAAGTGCCGCACCGAGTGGCGCCCCAAGAACCCCGGCGCCAACGGCGCCATCTCCACCGGCAAGAC CTCCAACGGCAACTCCGTGTCC SEQ ID NO: 91 Cuphea paucipetala (Cpau) FATB1 amino acid sequence MVAAAASSAFFPVPAPGTSPKPGKSGNWPSSLSPSIKPMSIPNGGFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMRDRKSKRPDMLVDSVGLKSVVLDGLVSRQ IFSIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWGD TVEINTWFSHSGKIGMASDWLITDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHYVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGM DSVLESVTAMDPSEDEGRSQYKHLLRLEDGTDIVKGRTEWRPKNAGTNGAISTAKPSNGNSVS SEQ ID NO: 92 Cuphea paucipetala (Cpau) FATB1 coding DNA sequence ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGTTCCAGCCCCCGGAACCTCCCCTAAACCCGGG AAGTCCGGCAACTGGCCATCAAGCTTGAGCCCTTCCATCAAGCCCATGTCAATCCCCAATGGCGGATT TCAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCA GCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGGCTTTCCTTAACCAGTTGCCTGATT GGAGTATGCTTCTGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTGGACTATGCGTGAT CGGAAATCTAAGAGGCCTGACATGCTCGTGGACTCGGTTGGGTTGAAGAGTGTTGTTCTGGATGGGCT CGTGTCCAGACAGATTTTTTCGATTAGGTCTTATGAAATAGGCGCTGATCGAACTGCCTCTATAGAGAC GCTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCTT TGGTCGTACTCCTGGGATGTGTAAAAATGACCTCATTTGGGTGCTTACAAAAATGCAGATCATGGTGA ATCGCTACCCAACTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCCCATTCGGGGAAAATTGGT ATGGCTAGCGATTGGCTAATAACTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGTG GGCCATGATGAATCAAAAGACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAACG CCTCATTATGTGGACTCTCCTCATGTCATTGAAGATAATGATCGGAAATTGCATAAGTTTGATGTGAAG ACTGGTGATTCCATTCGTAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTAAG CAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAATAGAAGTTTTGGAGACCCAGGAGCTAT GCTCTCTCACCGTTGAATATAGGCGGGAATGCGGAATGGACAGTGTGCTGGAGTCCGTGACTGCTATG GATCCCTCAGAAGATGAAGGCCGGTCTCAGTACAAGCACCTTCTGCGGCTTGAGGATGGGACTGACAT CGTGAAGGGCAGAACTGAGTGGCGACCGAAGAATGCAGGAACTAACGGGGCGATATCAACAGCAAA GCCTTCAAATGGAAACTCGGTCTCTTAG SEQ ID NO: 93 Cuphea paucipetala (Cpau) FATB1 coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAAGCCCGGC AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCATCAAGCCCATGTCCATCCCCAACGGCGGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG GTCCATGCTGCTGACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCGCGACC GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGTCCGTGGTGCTGGACGGCCTG GTGTCCCGCCAGATCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA ACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCACTCCGGCAAGATCGGC ATGGCCTCCGACTGGCTGATCACCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC CCCACTACGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGACCCAGGAGCTGT GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCATG GACCCCTCCGAGGACGAGGGCCGCTCCCAGTACAAGCACCTGCTGCGCCTGGAGGACGGCACCGACA TCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGCCAA GCCCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 94 Cuphea procumbens (Cproc) FATB1 amino acid sequence MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWG DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLEAQELCSLTVEYRRECGM DSVLESVTAVDPSEDGGRSQYNHLLRLEDGTDVVKGRTEWRPKNAETNGAISPGNTSNGNSIS SEQ ID NO: 95 Cuphea procumbens (Cproc) FATB1 coding DNA sequence ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGCTCCAGCCCCGGGATCCTCACCTAAACCCGGG AAGTCCGGTAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGTCCAAGTCAATCCCCTATGGCCGATTT CAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCAG CCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGGCTTTCCTTAACCAGTTGCCTGATTG GAGTATGCTTCTGTCTGCAATCACGACTGTATTCGTGGCGGCAGAGAAGCAGTGGACTATGCTTGATC GGAAATCTAAGAGGCCTGACATGCTTGTGGACTCGGTTGGGTTGAAGAATATTGTTCGGGATGGGCTC GTGTCCAGACAGAGTTTTTTGATTAGATCTTATGAAATAGGCGCTGATCGAACAGCTTCTATAGAGAC ACTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCTT TGGTCGTACTCCTGGGATGTGTAAAAACGACCTCATTTGGGTGCTTACTAAAATGCAGATCATGGTGA ATCGCTACCCAGCTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCCCAGTCGGGGAAAATCGGT ATGGGTAGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGT GGGCCATGATGAATCAAAAAACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAAC GCCTCATTTTGTGGACTCTCCTCATGTCATTGAAGACAATGATCGGAAATTGCATAAGTTCGATGTGAA GACTGGTGATTCTATTCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTGA GCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAATAGAAGTTTTGGAGGCCCAGGAACTA TGCTCTCTCACCGTTGAATATAGGCGGGAATGCGGAATGGACAGTGTGCTGGAGTCCGTGACTGCTGT AGATCCCTCAGAAGATGGAGGCCGGTCTCAGTACAATCACCTTCTGCGGCTTGAGGATGGGACTGATG TCGTGAAGGGCAGAACTGAGTGGCGACCGAAGAATGCAGAAACTAACGGGGCGATATCACCAGGAAA CACTTCAAATGGAAACTCGATCTCCTAG SEQ ID NO: 96 Cuphea procumbens (Cproc) FATB1 coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGCCCCCGCCCCCGGCTCCTCCCCCAAGCCCGGC AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGTCCAAGTCCATCCCCTACGGCCGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG GTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGAACATCGTGCGCGACGGCCTG GTGTCCCGCCAGTCCTTCCTGATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA ACCGCTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC ATGGGCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGGCCCAGGAGCTGT GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCGTG GACCCCTCCGAGGACGGCGGCCGCTCCCAGTACAACCACCTGCTGCGCCTGGAGGACGGCACCGACGT GGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGAGACCAACGGCGCCATCTCCCCCGGCAAC ACCTCCAACGGCAACTCCATCTCCTGA SEQ ID NO: 97 Cuphea procumbens (Cproc) FATB2 amino acid sequence MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWG DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRQECGRE SVLESLTAVDPSGKGFGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIASGETSPGDF SEQ ID NO: 98 Cuphea procumbens (Cproc) FATB2 coding DNA sequence ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGCTCCAGCCCCGGGATCCTCACCTAAACCCGGG AAGTCCGGTAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGTCCAAGTCAATCCCCTATGGCCGATTT CAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCAG CCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGGCTTTCCTTAACCAGTTGCCTGATTG GAGTATGCTTCTGTCTGCAATCACGACTGTATTCGTGGCGGCAGAGAAGCAGTGGACTATGCTTGATC GGAAATCTAAGAGGCCTGACATGCTTGTGGACTCGGTTGGGTTGAAGAATATTGTTCGGGATGGGCTC GTGTCCAGACAGAGTTTTTTGATTAGATCTTATGAAATAGGCGCTGATCGAACAGCTTCTATAGAGAC ACTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCTT TGGTCGTACTCCTGGGATGTGTAAAAACGACCTCATTTGGGTGCTTACTAAAATGCAGATCATGGTGA ATCGCTACCCAGCTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCCCAGTCGGGGAAAATCGGT ATGGGTAGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGT GGGCCATGATGAATCAAAAAACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAAC GCCTCATTTTGTGGACTCTCCTCATGTCATTGAAGACAATGATCGGAAATTGCATAAGTTCGATGTGAA GACTGGTGATTCTATTCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTCA ACAACGTGAAGTACATCGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTA TGTTCCCTTACCCTGGAATACAGGCAGGAATGCGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGT GGACCCCTCTGGAAAGGGCTTTGGGTCCCAGTTCCAACACCTTCTGAGGCTTGAGGATGGAGGTGAGA TCGTGAAGGGGAGAACTGAGTGGCGACCCAAGACTGCAGGTATCAATGGGGCGATAGCATCCGGGGA GACCTCACCTGGAGACTTTTAG SEQ ID NO: 99 Cuphea procumbens (Cproc) FATB2 coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGCCCCCGCCCCCGGCTCCTCCCCCAAGCCCGGC AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGTCCAAGTCCATCCCCTACGGCCGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG GTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGAACATCGTGCGCGACGGCCTG GTGTCCCGCCAGTCCTTCCTGATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA ACCGCTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC ATGGGCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGA ACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAGCTG TGCTCCCTGACCCTGGAGTACCGCCAGGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGCCGT GGACCCCTCCGGCAAGGGCTTCGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCGAGA TCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCGCCATCGCCTCCGGCGA GACCTCCCCCGGCGACTTCTGA SEQ ID NO: 100 Cuphea procumbens (Cproc) FATB3 amino acid sequence MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWG DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRE SVLESLTAVDPSGEGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNAGINGVLPTGE* SEQ ID NO: 101 Cuphea procumbens (Cproc) FATB3 coding DNA sequence ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGCTCCAGCCCCGGGATCCTCACCTAAACCCGGG AAGTCCGGTAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGTCCAAGTCAATCCCCTATGGCCGATTT CAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCAG CCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGGCTTTCCTTAACCAGTTGCCTGATTG GAGTATGCTTCTGTCTGCAATCACGACTGTATTCGTGGCGGCAGAGAAGCAGTGGACTATGCTTGATC GGAAATCTAAGAGGCCTGACATGCTTGTGGACTCGGTTGGGTTGAAGAATATTGTTCGGGATGGGCTC GTGTCCAGACAGAGTTTTTTGATTAGATCTTATGAAATAGGCGCTGATCGAACAGCTTCTATAGAGAC ACTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCTT TGGTCGTACTCCTGGGATGTGTAAAAACGACCTCATTTGGGTGCTTACTAAAATGCAGATCATGGTGA ATCGCTACCCAGCTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCCCAGTCGGGGAAAATCGGT ATGGGTAGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGT GGGCCATGATGAATCAAAAAACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAAC GCCTCATTTTGTGGACTCTCCTCATGTCATTGAAGACAATGATCGGAAATTGCATAAGTTCGATGTGAA GACTGGTGATTCTATTCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTCA ACAACGTGAAGTACATCGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTA TGTTCCCTTACCCTGGAATACAGGCGGGAATGTGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGT GGACCCCTCTGGAGAGGGGGGCTATGGATCCCAGTTTCAGCACCTTCTGCGGCTTGAGGATGGAGGTG AGATCGTGAAGGGGAGAACTGAGTGGCGACCCAAGAATGCTGGAATCAATGGGGTGTTACCAACCGG GGAGTAG SEQ ID NO: 102 Cuphea procumbens (Cproc) FATB3 coding DNA sequence codon optimized  for Prototheca moriformis ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGCCCCCGCCCCCGGCTCCTCCCCCAAGCCCGGC AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGTCCAAGTCCATCCCCTACGGCCGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG GTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGAACATCGTGCGCGACGGCCTG GTGTCCCGCCAGTCCTTCCTGATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA ACCGCTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC ATGGGCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGA ACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAGCTG TGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGCCGT GGACCCCTCCGGCGAGGGCGGCTACGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCG AGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCATCAACGGCGTGCTGCCCACCGG CGAGTGA SEQ ID NO: 103 Cuphea ignea (Cignea) FATB1 amino acid sequence PGTSRKTGKFGNWPSSLSPSFKPKSIPNGGFQVKANARAHPKANGSAVSLKSVSLNTQEDTSLSPPPRAFLN QLPDWRMLRTALTTVFVAAEKQWTMLDRKSKRPDMLVDSFGLESIVQEGLVFRQSFSIRSYEIGIDRTASIE TLMNHLQETSLNQCKSAGILHDGFGRTLEMCKRDLIWVVTKMQIKVNRYPAWGDTVEISTRFSRLGKIGM GRDWLICDCNTGEILIRATSAYAMMNQKTRRLSKLPNEVRQEIAPLFVDSDPVIEENDMKLHKFEVKTGDSI CKGLTPRWSDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVTSMDPSKVGG WSQYQHLLRLEDGADIVKGRTEWRPKNAGANGAISTGKT SEQ ID NO: 104 Cuphea ignea (Cignea) FATB1 coding DNA sequence CCGGGAACCTCACGTAAAACCGGGAAGTTCGGCAATTGGCCATCAAGCTTGAGCCCTTCCTTCAAGCC CAAGTCAATCCCCAATGGCGGATTTCAGGTTAAGGCTAATGCCAGAGCCCATCCTAAGGCTAACGGTT CTGCAGTAAGTCTAAAGTCTGTCAGCCTCAACACTCAGGAGGACACTTCGTTGTCCCCTCCTCCTCGTG CTTTCCTTAACCAGTTGCCTGATTGGAGGATGCTTCGGACTGCACTCACGACCGTCTTTGTGGCGGCAG AGAAGCAGTGGACTATGCTTGATCGGAAATCTAAGAGGCCTGACATGCTCGTGGACTCGTTTGGGTTG GAGAGTATTGTTCAAGAAGGGCTCGTGTTCAGACAGAGCTTTTCGATTAGGTCTTATGAAATAGGCAT TGATCGAACAGCCTCTATAGAGACGCTGATGAACCACTTGCAGGAAACATCTCTCAATCAATGTAAGA GTGCTGGTATTCTCCATGACGGCTTCGGTCGTACTCTTGAGATGTGTAAAAGGGACCTCATTTGGGTTG TTACGAAAATGCAGATCAAGGTGAATCGCTATCCAGCTTGGGGCGATACTGTCGAGATCAGTACCCGG TTCTCCCGGTTGGGGAAAATCGGTATGGGTCGCGATTGGCTAATATGTGATTGCAACACAGGAGAAAT TCTTATAAGAGCAACGAGCGCGTATGCCATGATGAATCAAAAGACGAGAAGACTCTCAAAACTTCCA AACGAGGTTCGCCAGGAGATAGCGCCTCTTTTTGTGGACTCTGATCCTGTCATTGAAGAAAATGATAT GAAATTGCATAAGTTTGAAGTGAAGACTGGTGATTCCATTTGCAAGGGTCTAACTCCGAGGTGGAGTG ACTTGGATGTCAATCAGCACGTAAGCAACGTGAAGTACATAGGGTGGATTCTCGAGAGTATGCCAACA GAAGTTTTGGAGACACAGGAGCTATGCTCTCTCGCCCTTGAATATAGGCGGGAATGCGGAAGGGACA GTGTGCTGGAGTCTGTGACCTCTATGGATCCCTCAAAAGTTGGAGGCTGGTCTCAGTACCAGCACCTTC TGCGACTTGAGGATGGGGCGGATATCGTGAAGGGCAGAACTGAGTGGCGGCCGAAGAATGCAGGAGC TAACGGGGCGATATCAACAGGAAAGACTTGA SEQ ID NO: 105 Cuphea ignea (Cignea) FATB1 coding DNA sequence codon optimized for  Prototheca moriformis CCCGGCACCTCCCGCAAGACCGGCAAGTTCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCC AAGTCCATCCCCAACGGCGGCTTCCAGGTGAAGGCCAACGCCCGCGCCCACCCCAAGGCCAACGGCTC CGCCGTGTCCCTGAAGTCCGTGTCCCTGAACACCCAGGAGGACACCTCCCTGTCCCCCCCCCCCCGCGC CTTCCTGAACCAGCTGCCCGACTGGCGCATGCTGCGCACCGCCCTGACCACCGTGTTCGTGGCCGCCG AGAAGCAGTGGACCATGCTGGACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCTTCGGCCTG GAGTCCATCGTGCAGGAGGGCCTGGTGTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCATC GACCGCACCGCCTCCATCGAGACCCTGATGAACCACCTGCAGGAGACCTCCCTGAACCAGTGCAAGTC CGCCGGCATCCTGCACGACGGCTTCGGCCGCACCCTGGAGATGTGCAAGCGCGACCTGATCTGGGTGG TGACCAAGATGCAGATCAAGGTGAACCGCTACCCCGCCTGGGGCGACACCGTGGAGATCTCCACCCGC TTCTCCCGCCTGGGCAAGATCGGCATGGGCCGCGACTGGCTGATCTGCGACTGCAACACCGGCGAGAT CCTGATCCGCGCCACCTCCGCCTACGCCATGATGAACCAGAAGACCCGCCGCCTGTCCAAGCTGCCCA ACGAGGTGCGCCAGGAGATCGCCCCCCTGTTCGTGGACTCCGACCCCGTGATCGAGGAGAACGACATG AAGCTGCACAAGTTCGAGGTGAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCCGCTGGTCCGA CCTGGACGTGAACCAGCACGTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCG AGGTGCTGGAGACCCAGGAGCTGTGCTCCCTGGCCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCC GTGCTGGAGTCCGTGACCTCCATGGACCCCTCCAAGGTGGGCGGCTGGTCCCAGTACCAGCACCTGCT GCGCCTGGAGGACGGCGCCGACATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCGCC AACGGCGCCATCTCCACCGGCAAGACCTGA SEQ ID NO: 106 JcFatB1 consensus amino acid sequence MVAAAASSAFFPVPAPGTSPKPGKSGNWPSSLSPSFKPKSIPNGGFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKRIVQDGLVSRQ SFSIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWG DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGM DSVLESVTAMDPSENGGRSQYKHLLRLEDGTDIVKGRTEWRPKNAGTNGAISTGKTSNGNSVS* SEQ ID NO: 107 JcFatB1 consensus DNA sequence codon optimized for Prototheca ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAAGCCCGGC AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCCAAGTCCATCCCCAACGGCGGCTTC CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG GTCCATGCTGCTGACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGCGCATCGTGCAGGACGGCCTG GTGTCCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA ACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC ATGGGCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGACCCAGGAGCTGT GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCATG GACCCCTCCGAGAACGGCGGCCGCTCCCAGTACAAGCACCTGCTGCGCCTGGAGGACGGCACCGACA TCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGGCAA GACCTCCAACGGCAACTCCGTGTCCTGA SEQ ID NO: 108 JcFatB2 consensus amino acid sequence MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLSPLKPKSVANGGLQVKANASAPPKINGSSVGLKSGSLKTQ EDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGLVFRQNF SIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWG DTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAPV IEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECG RESVLESLTAVDPSGKGYGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIASGETSPGDSS* SEQ ID NO: 109 JcFatB2 consensus DNA sequence codon optimized for Prototheca ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACACCTCCTCCCGCCCCGGC AAGCTGGGCAACGGCTCCTCCTCCCTGTCCCCCCTGAAGCCCAAGTCCGTGGCCAACGGCGGCCTGCA GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCTCCC TGAAGACCCAGGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG TCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTG GAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCCGCATCGTGCAGGACGGCCTGG TGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC GTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGAACGACGGCTT CGGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTG AACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACG GCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGTG TGGGTGATGATGAACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCCACGAGATCG AGCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACCGCAAGCTGCCCAAGCTGGACGAG AAGACCGCCGACTCCATCCGCAAGGGCCTGACCCCCAAGTGGAACGACCTGGACGTGAACCAGCACG TGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGA GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCG CCGTGGACCCCTCCGGCAAGGGCTACGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGC GAGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCGCCATCGCCTCCG GCGAGACCTCCCCCGGCGACTCCTCCTGA SEQ ID NO: 110 CuPSR23 FATB3 amino acid sequence MVVAAATSAFFPVPAPGTSPKPGKSGNWPSSLSPTFKPKSIPNAGFQVKANASAHPKANGSAVNL KSGSLNTQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKCIVRD GLVSRQSFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNR YPTWGDTVEINTWFSQSGKIGMASDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVD SPHVIEDNDQKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYR RECGMDSVLESVTAVDPSENGGRSQYKHLLRLEDGTDIVKSRTEWRPKNAGTNGAISTSTAKTSNGNSVS SEQ ID NO: 111 CuPSR23 FATB3b amino acid sequence MVVAAATSAFFPVPAPGTSPKPGKSGNWPSSLSPTFKPKSIPNAGFQVKANASAHPKANGSAVNL KSGSLNTQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKSIVRDG LVSRQSFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRY PTWGDTVEINTWFSQSGKIGMASDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDS PHVIEDNDQKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRR ECGMDSVLESVTAVDPSENGGRSQYKHLLRLEDGTDIVKSRTEWRPKNAGTNGAISTSTAKTSNGNSAS SEQ ID NO: 112 CwFATB3 amino acid sequence: MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSL KSGSLNTLEDPPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQFTRLDRKSKRPDMLVDWFGSETIVQDGL VFRERFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCTRDLIWVLTKMQIVVNRYP TWGDTVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDA PPVIEDNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRR ECGRESVVESVTSMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNRAIST SEQ ID NO: 113 CwFATB3a amino acid sequence: MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSL KSGSLNTLEDPPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQFTRLDRKSKRPDMLVDWFGSETIVQDGL VFRERFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCTRDLIWVLTKMQIVVNRYP TWGDTVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDA PPVIEDNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRR ECGRESVVESVTSMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNRAIST SEQ ID NO: 114 CwFATB3b amino acid sequence MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSL KSGSLNTLEDLPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQFTRLDRKSKRPDMLVDWFGSETIVQDGL VFRERFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCTRDLIWVLTKMQIVVNRYP TWGDTVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDA PPVIEDNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILEKFWRPRSYALSPLNIGGNVEG KVW SEQ ID NO: 115 CwFATB3c amino acid sequence MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSL KSGSLNTLEDLPSSPPPRTFLNQLPDWSRLRTAITTVFVATEKQFTRLDRKSKRPDMLVDWFGSETIVQDGL VFRERFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCTRDLIWVLTKMQIVVNRYP TWGDTVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDA PPVIEDNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILEKFWRPRSYALSPLNIGGNVEG KVW SEQ ID NO: 116 CwFATB4a amino acid sequence MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS GGFKTQEDSPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSAEGYASRFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGDFF SEQ ID NO: 117 CwFATB4a.1 amino acid sequence MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS GGFKTQEDSPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSAEGYASRFQHLLRLEDGGEIVKARTEWRPKNAGINWVVPSEESSPGDFF SEQ ID NO: 118 CwFATB4a.2 amino acid sequence: MVATAASSAFFPVPSADTSSSRPGKLGNGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS GSFKTQEDAPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSAEGYASRFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGDFF SEQ ID NO: 119 CwFATB4a.3 amino acid sequence MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS GGFKTQEDSPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSAEGYVSRFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGDFF SEQ ID NO: 120 CwFATB4b amino acid sequence MVATAASSAFFPVPSADTSSSRPGKLGNGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS GSFKTQEDAPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSSDGFGRTPAMSKRDLIWVVAKMQVMVNR YPAWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPAEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGEGDGSKFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGGDFF SEQ ID NO: 121 CwFATB4b.1 amino acid sequence MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS GSFKTQEDAPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSSDGFGRTPAMSKRDLIWVVAKMQVMVNR YPAWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPAEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGEGDGSKFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGGDFF SEQ ID NO: 122 CwFATB5 amino acid sequence MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSG SLETPPRSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEIGVDRTAS IETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWVSESGKNG MGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDS IRDGLTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEG DRCVYQHLLRLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGRGWQPFRVVRLIF SEQ ID NO: 123 CwFATB5a amino acid sequence MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSG SLETPPRSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGFFFRQSFSIRSYEIGVDRTAS IETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWVSESGKNG MGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDS IRDGLTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEG DRCVYQHLLRLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGRGWQPFRVVRLIF SEQ ID NO: 124 CwFATB5b amino acid sequence MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSG SLETPPRSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEIGVDRTAS IETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWVSESGKNG MGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDS IRDGLTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEG DRCVYQHLLWLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGRGWQPFRVVRLIF SEQ ID NO: 125 CwFATB5c amino acid sequence MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSG SLETPPRSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEIGVDRTAS IETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPIWGDTIEVNTWVSESGKNG MGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDS IRDGLTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEG DRCVYQHLLRLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGMGWQPFRVVRLIF SEQ ID NO: 126 CwFATB5.1 amino acid sequence MVAAAASSAFFSVPTPGTSPKPGKFRNWPSSLSVPFKPETNHNGGFHIKANASAHPKANGSALNLK SGSLETQEDTSLSSPPRTFIKQLPDWSMLLSKITTVFGAAEKQLKRPGMLVEPFGVDRIFQDGVFFRQSFSIRS YEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNT WVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDRKL YKLNVKTGDSIRDGLTPRWNDLDVNQHVNNVKFIGWILKSVPTKVFETQELCGVTLEYRRECGKDSVLES VTAMDPAKEGDRSVYQHLLRLEDGADITIGRTEWRPKNAGANEAISSGKTSNGNSAS SEQ ID NO: 127 CwFATB5.1a amino acid sequence MVAAAASSAFFSVPTPGTSPKPGKFRNWPLSLSVPFKPETNHNGGFHIKANASAHPKANGSALNL KSGSLETQEDTSLSSPPRTFIKQLPDWSMLLSKITTVFGAAEKQLKRPGMLVEPFGVDRIFQDGVFFRQSFSI RSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEV NTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDR KLYKLNVKTGDSIRDGLTPRWNDLDVNQHVNNVKFIGWILKSVPTKVFETQELCGVTLEYRRECGKDSVL ESVTAMDPAKEGDRSVYQHLLRLEDGADITIGRTEWRPKNAGANEAISSGKTSNGNSAS SEQ ID NO: 128 CcFATB2b amino acid sequence MVTTSLASAYFSMKAVMLAPDGRGIKPRSSGLQVRAGNERNSCKVINGTKVKDTEGLKGCSTLQ GQSMLDDHFGLHGLVFRRTFAIRCYEVGPDRSTSIMAVMNHLQEAARNHAESLGLLGDGFGETLEMSKRD LIWVVRRTHVAVERYPAWGDTVEVEAWVGASGNTGMRRDFLVRDCKTGHILTRCTSVSVMMNMRTRRL SKIPQEVRAEIDPLFIEKVAVKEGEIKKLQKLNDSTADYIQGGWTPRWNDLDVNQHVNNIIYVGWIFKSVPD SISENHHLSSITLEYRRECIRGNKLQSLTTVCGGSSEAGIICEHLLQLEDGSEVLRARTEWRPKHTDSFQGISE RFPQQEPHK SEQ ID NO: 129 CcFATB3 amino acid sequence MVATAAASAFFPVGAPATSSATSAKASMMPDNLDARGIKPKPASSSGLQVKANAHASPKINGSKV STDTLKGEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDG LIFRQHFAIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDR YPAWGDIVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKLPEEVRGEIGPYF IEDVAIIEEDNRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNVKYIGWILESAPGSILESHELSCMTLEY RRECGKDSVLQSMTAVSGGGSAAGGSPESSVECDHLLQLESGPEVVRGRTEWRPKSANNSRSILEMPAESL SEQ ID NO: 130 CcFATB3b amino acid sequence MVATAAASAFFPVGAPATSSATSAKASMMPDNLDARGIKPKLASSSGLQVKANAHASPKINGSKV STDTLKGEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDG LIFRQHFAIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDR YPAWGDIVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKLPEEVRGEIGPYF IEDVAIIEEDNRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNVKYIGWILESAPGSILESHELSCMTLEY RRECGKDSVLQSMTAVSGGGSAAGGSPESSVECDHLLQLESGPEVVRGRTEWRPKSANNSRSILEMPAESL SEQ ID NO: 131 CcFATB3c amino acid sequence MVATAAASAFFPVGAPATSSATSAKASMMPDNLDARGIKPKPASSSGLQVKANAHASPKINGSKV STDTLKGEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDG LIFRQHFAIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDR YPAWGDIVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKLPEEVRGEIGPYF IEDVAIIEEDNRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNAKYIGWILESAPGSILESHELSCMTLEY RRECGKDSVLQSMTAVSGGGSAAGGSPESSVECDHLLQLESGPEVVRGRTEWRPKSANNSRSILEMPAESL SEQ ID NO: 132 ChtFATB1a amino acid sequence MVAAAASSAFFSVPTPGTSTKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL KSGSLETQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSF SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE VNTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD KKLHKLDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS SEQ ID NO: 133 ChtFATB1a.1 amino acid sequence MVAAAASSAFFSVPTPGTSPKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL KSGSLETQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRHSF SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE VNTWVSESGKNGMGRDWLIGDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD KKLHKLDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGALSTGKTSNGNSVS SEQ ID NO: 134 ChtFATB1a.2 amino acid sequence MVAAAASSAFFSVPTPGTSPKPGNFGNWPSNLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL KSGSLETQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSF SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE VNTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD KKLHKLDVKTGDSIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS SEQ ID NO: 135 ChtFATB1a.3 amino acid sequence MVAAAASSAFFSVPTPGTSPKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL KSGSLETQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSF SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE VNTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD KKLHKLDVKTGDSIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGVNGAISTGKTSNENSVS SEQ ID NO: 136 ChtFATB1a.4 amino acid sequence MVAAAASSAFFSVPTPGTSPKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL KSGSLETQEDTSSSSPPPRTFIKQLPDWSMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSFS IRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEV NTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDDK KLHKLDVKTGDSIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSVL ESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS SEQ ID NO: 137 ChtFATB1b amino acid sequence MVAAAASSAFFSVPTSGTSPKPGNFGNWPSSLSVPFKPESSHNGGFQVKANASAHPKANGSAVNL KSGSLETQEDTSSSSPPPRTFIKQLPDWSMLLSKITTVFWAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSF SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE VNTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD KKLHKLDVKTGDFIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS SEQ ID NO: 138 ChtFATB2b amino acid sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS LKSGSLNTQEGTSSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQD GLVFRESFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVN RYPTWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFV DAPPVIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEY RRECGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS SEQ ID NO: 139 ChtFATB2a amino acid sequence MVVAAAASSAFFPVPAPGTTSKPGKFGNWPSSLSPSFKPKSNPNGGFQVKANASAHPKANGSAVS LKSGSLNTKEDTPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQD WLVFRESFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVN RYPTWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFV DAPPLIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEY RRECGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS SEQ ID NO: 140 ChtFATB2c amino acid sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS LKSGSLNTKEDTPSSPPPRTFLNQLPDWNRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQD GLVFRESFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVN RYPTWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFV DAPPVIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEY RRECGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS SEQ ID NO: 141 ChtFATB2d amino acid sequence MVVAAAASSAFFPVPAPGTTSKPGKFGNWPSSLSPSFKPKSNPNGGFQVKANASAHPKANGSAVS LKSGSLNTQEDTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDLFGLESIVQDG LVFRESYSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVNR YPTWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVD APPVIEDNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYR RECGRESVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS SEQ ID NO: 142 ChtFATB2e amino acid sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS LKSGSLNTQEDTSSSPPPQTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQD GLVFRESYSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNR YPNWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVD APPVIEDNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYR RECGRDSVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS SEQ ID NO: 143 ChtFATB2f amino acid sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS LKSGSLNTQEGTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQD GLVFRESYSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNR YPNWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVD APPVIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYR RECGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS SEQ ID NO: 144 ChtFATB2g amino acid sequence MVVAATASSAFFPVPVPGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSL KSGSLNTQEDTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQDG LVFREIYSIRSYEISADRTTSIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNRYP NWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAP PVIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRE CGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNANSVS SEQ ID NO: 145 ChtFATB2h amino acid sequence MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS LKSGSLNTQEGTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQD GLVFRESYSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNR YPNWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVD APPVIEDNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESIPTEVLETQELCSLTLEYRR ECGRESVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS SEQ ID NO: 146 ChtFATB3a amino acid sequence MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS CSLKTHEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS SEQ ID NO: 147 ChtFATB3b amino acid sequence MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGFGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLIEGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS SEQ ID NO: 148 ChtFATB3c amino acid sequence MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS CSLKTHEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF VDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSEKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIAFGETSPGDS SEQ ID NO: 149 ChtFATB3d amino acid sequence MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS CSLKTHEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIKTVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS SEQ ID NO: 150 ChtFATB3e amino acid sequence MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS GSLKTHEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS SEQ ID NO: 151 ChtFATB3f amino acid sequence MVATAASSAFFPVPSPDTSSRLGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMPVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSEKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS SEQ ID NO: 152 ChtFATB3g amino acid sequence MVATAASSAFFPVPSPDTSSRAGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS SEQ ID NO: 153 ChsFATB1 amino acid sequence MVATNAAAFSAYTFFLTSPTHGYSSKRLADTQNGYPGTSLKSKSTPPPAAAAARNGALPLLASICK CPKKADGSMQLDSSLVFGFQFYIRSYEVGADQTVSIQTVLNYLQEAAINHVQSAGYFGDSFGATPEMTKRN LIWVITKMQVLVDRYPAWGDVVQVDTWTCSSGKNSMQRDWFVRDLKTGDIITRASSVWVLMNRLTRKL SKIPEAVLEEAKLFVMNTAPTVDDNRKLPKLDGSSADYVLSGLTPRWSDLDMNQHVNNVKYIAWILESVP QSIPETHKLSAITVEYRRECGKNSVLQSLTNVSGDGITCGNSIIECHHLLQLETGPEILLARTEWISKEPGFRG APIQAEKVYNNK SEQ ID NO: 154 ChsFATB2 amino acid sequence MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKS GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVN RYPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPH FVDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIASGETSPGDSS SEQ ID NO: 155 ChsFatB2b amino acid sequence MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKS GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVN RYPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSKSQIMLPLHYCSVWVMMNQKTRRLS KIPDEVRHEIEPHFVDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPE VLETQELCSLTLEYRRECGRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIA SGETSPGDSS SEQ ID NO: 156 ChsFatB2c amino acid sequence MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKS GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVN RYPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPH FVDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGKGSGSQFQHLMRLEDGGEIVKGRTEWRPKTAGINGPIASGETSPGDSS SEQ ID NO: 157 ChsFatB2d amino acid sequence MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKS GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNR YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHF VDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE YRRECGRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIASGETSPGDSS SEQ ID NO: 158 Chs FATB3 amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVN RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY RRECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS SEQ ID NO: 159 ChsFatb3b amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHIEVNR YPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFV DSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYR RECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS SEQ ID NO: 160 ChsFatB3c amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVN RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY RQECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAGKTSNGNSIS SEQ ID NO: 161 ChsFATB3d amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPSSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDASSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRSDMLMDPFGVDRVVQ DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVN RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY RRECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS SEQ ID NO: 162 ChsFATB3e amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPSSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDASSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRSDMLMDPFGVDRVVQ DGVVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVN RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY RRECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS SEQ ID NO: 163 ChsFATB3f amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPSSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVN RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY RRECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS SEQ ID NO: 164 ChsFATB3g amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHIEVNR YPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFV DSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYR QECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAGKTSNGNSIS SEQ ID NO: 165 ChsFATB3h amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPSSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDASSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRSDMLMDPFGVDRVVQ DGVVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHIEVNR YPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFV DSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYR QECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAGKTSNGNSIS SEQ ID NO: 166 ChsFATB3i amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVN RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY RRECGGDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS SEQ ID NO: 167 ChsFATB3j amino acid sequence MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHIEVNR YPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFV DSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYR QECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAGKTSNGNSIS SEQ ID NO: 168 CcalcFATB1 (Cuphea calcarata FATB1) MVAAAATSAFFPVPAPGTSPNPRKFGSWPSSLSPSLPKSIPNGGFQVKANASAHPKANGSAVSLKSGSLNTQ ENTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQSFSIRS YEIGTDRTASIETLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEINT RFSRLGKIGMGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLKVH KFEVKTGDSIQKGLSPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVT AMDPSKVGGRSQYQHLLRLEDGTAIVNGITEWRPKNAGANGAISTGKTSNGNSVS SEQ ID NO: 169 ChookFATB4 (Cuphea hookeriana FATB4) MVAAAATSAFFPVPAPGTSPNPRKFGSWPSSLSPSLPNSIPNGGFQVKANASAHPKANGSAVSLKSGSLNTQ ENTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQRFSIR SYEIGTDRTASMETLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEI NTRFSRLGKIGMGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVRQEIAPLFVDSPPVIEDNDLK VHKFEVKTGDSIHKGLTPGWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRESVLES LTAMDPSGGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNGVINGVVPTGESSPGDYS SEQ ID NO: 170 CaFATB1 (Cuphea avigera var. pulcherrima FATB1) MVAAAASSAFFSVPVPGTSPKPGKFRIWPSSLSPSFKPKPIPNGGLQVKANSRAHPKANGSAVSLKSGSLNT QEDTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLMDSFGLESIVQEGLEFRQSFSIR SYEIGTDRTASIETLMNYLQETSLNHCKSTGILLDGFGRTPEMCKRDLIWVVTKMKIKVNRYPAWGDTVEI NTWFSRLGKIGKGRDWLISDCNTGEILIRATSAYATMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLK LHKFEVKTGDSIHKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLES VTAMDPTKVGGRSQYQHLLRLEDGTDIVKCRTEWRPKNPGANGAISTGKTSNGNSVS SEQ ID NO: 171 CpauFATB1 (Cuphea paucipetala FATB1) MVAAAASSAFFPVPAPGTSPKPGKSGNWPSSLSPSIKPMSIPNGGFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMRDRKSKRPDMLVDSVGLKSVVLDGLVSRQ IFSIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWGD TVEINTWFSHSGKIGMASDWLITDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHYVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGM DSVLESVTAMDPSEDEGRSQYKHLLRLEDGTDIVKGRTEWRPKNAGTNGAISTAKPSNGNSVS SEQ ID NO: 172 CprocFATB1 (Cuphea procumbens FATB1) MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWG DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLEAQELCSLTVEYRRECGM DSVLESVTAVDPSEDGGRSQYNHLLRLEDGTDVVKGRTEWRPKNAETNGAISPGNTSNGNSIS SEQ ID NO: 173 CprocFATB2 (Cuphea procumbens FATB2) MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWG DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRQECGRE SVLESLTAVDPSGKGFGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIASGETSPGDF SEQ ID NO: 174 CprocFATB3 (Cuphea procumbens FATB3) MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWG DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRE SVLESLTAVDPSGEGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNAGINGVLPTGE SEQ ID NO: 175 CigneaFATB1 (Cuphea ignea FATB1) PGTSRKTGKFGNWPSSLSPSFKPKSIPNGGFQVKANARAHPKANGSAVSLKSVSLNTQEDTSLSPPPRAFLN QLPDWRMLRTALTTVFVAAEKQWTMLDRKSKRPDMLVDSFGLESIVQEGLVFRQSFSIRSYEIGIDRTASIE TLMNHLQETSLNQCKSAGILHDGFGRTLEMCKRDLIWVVTKMQIKVNRYPAWGDTVEISTRFSRLGKIGM GRDWLICDCNTGEILIRATSAYAMMNQKTRRLSKLPNEVRQEIAPLFVDSDPVIEENDMKLHKFEVKTGDSI CKGLTPRWSDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVTSMDPSKVGG WSQYQHLLRLEDGADIVKGRTEWRPKNAGANGAISTGKT SEQ ID NO: 176 CcalcFATB1 (Cuphea calcarata FATB1)

TFIKQLPDWSMLLSAITTVFVAAEKQWTMFDRKSKRSDMLVDPFVVDRIVQDGVLFRQSFSIRSYEIGADR TASIETLMNIFQETSLNHCKSMGLLYEGFGRTPEMCKRDLIWVVTKIHIKVNRYPTWGDTIEVTTWVSESG KNGMGRDWLISDCHTGEILIRATSVWAMMNQTTRRLSKFPYELRQEIAPHFVDSDPVIEDNRRLLNFDVKT GDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFDTRELCGLTLEYRQECGRGSVLESVTAMDPS KEGDRSLYQHLLRLEDGTDIVKGRTEWRPKNAGTNGPVSTRKTTNGSSVS SEQ ID NO: 177 ChookFATB4 (Cuphea hookeriana FATB4)

FLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQRFSIRSYEIGTDRTAS METLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEINTRFSRLGKIG MGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVRQEIAPLFVDSPPVIEDNDLKVHKFEVKTGD SIHKGLTPGWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRESVLESLTAMDPSGGG YGSQFQHLLRLEDGGEIVKGRTEWRPKNGVINGVVPTGESSPGDYS SEQ ID NO: 178 CaFATB1 (Cuphea avigera var. pulcherrima FATB1)

FLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLMDSFGLESIVQEGLEFRQSFSIRSYEIGTDRTASI ETLMNYLQETSLNHCKSTGILLDGFGRTPEMCKRDLIWVVTKMKIKVNRYPAWGDTVEINTWFSRLGKIG KGRDWLISDCNTGEILIRATSAYATMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLKLHKFEVKTGDSI HKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVTAMDPTKVGG RSQYQHLLRLEDGTDIVKCRTEWRPKNPGANGAISTGKTSNGNSVS SEQ ID NO: 179 CpauFATB1 (Cuphea paucipetala FATB1)

AFLNQLPDWSMLLTAITTVFVAAEKQWTMRDRKSKRPDMLVDSVGLKSVVLDGLVSRQIFSIRSYEIGADR TASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWGDTVEINTWFSHS GKIGMASDWLITDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHYVDSPHVIEDNDRKLHKFD VKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGMDSVLESVTAM DPSEDEGRSQYKHLLRLEDGTDIVKGRTEWRPKNAGTNGAISTAKPSNGNSVS SEQ ID NO: 180 CprocFATB1 (Cuphea procumbens FATB1)

AFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQSFLIRSYEIGADR TASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWGDTVEINTWFSQS GKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIEDNDRKLHKFDV KTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLEAQELCSLTVEYRRECGMDSVLESVTAVDP SEDGGRSQYNHLLRLEDGTDVVKGRTEWRPKNAETNGAISPGNTSNGNSIS SEQ ID NO: 181 CprocFATB2 (Cuphea procumbens FATB2)

AFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQSFLIRSYEIGADR TASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWGDTVEINTWFSQS GKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIEDNDRKLHKFDV KTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRQECGRESVLESLTAVDPS GKGFGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIASGETSPGDF SEQ ID NO: 182 CprocFATB3 (Cuphea procumbens FATB3)

AFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQSFLIRSYEIGADR TASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWGDTVEINTWFSQS GKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIEDNDRKLHKFDV KTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRESVLESLTAVDPS GEGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNAGINGVLPTGE SEQ ID NO: 183 CigneaFATB1 (Cuphea ignea FATB1)

AFLNQLPDWRMLRTALTTVFVAAEKQWTMLDRKSKRPDMLVDSFGLESIVQEGLVFRQSFSIRSYEIGIDR TASIETLMNHLQETSLNQCKSAGILHDGFGRTLEMCKRDLIWVVTKMQIKVNRYPAWGDTVEISTRFSRLG KIGMGRDWLICDCNTGEILIRATSAYAMMNQKTRRLSKLPNEVRQEIAPLFVDSDPVIEENDMKLHKFEVK TGDSICKGLTPRWSDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVTSMDPS KVGGWSQYQHLLRLEDGADIVKGRTEWRPKNAGANGAISTGKT SEQ ID NO: 184 CgFATB1 (Cuphea glossostoma FATB1)_

SEQ ID NO: 185 CgFATB1b (Cuphea glossostoma FATB1 C170F, M198T, T374S variant) MVAAAASSAFFPSPAPGSSPKPGNRPSSLSPSFKPKSIPNGAFQVKANASAHPKANGSAVNLKSGSLNTQED SSSSPSPRAFLNQLPDWSVLLTAITTVFVAAEKQWTMLDRKSKRPDVLVDSVGLKSIVQDGLVSRQSFSIRS YEIGADRTASIETLMNHLQETSINHFKSLGLLNDGFGRTPGMCKNDLIWVLTKTQIMVNRYPAWGDTVEIN TWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIEDNDRK LHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGMDSVLES VSAMDPSEDGGRSQYNHLLRLEDGTDVVKGRTEWRPKNAGTNGAISTTKTSNGNSVS SEQ ID NO: 186 Umbellularia californica UcFATB3 amino acid sequence MVATAAASAFFPVGSPATSSATSAKASMMPDNLDARGIKPKPASSSGLQVKANAHASPKINGSKVSTDTLK GEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDGLIFRQHF AIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDRYPAWGD IVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKIPEEVRGEIGPYFMENVAII EEDSRKLQKLNENIIEEDSRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNVKYIGWILESAPGSILESHE LSCMTLEYRRECGKDSVLQSMTVVSGGGSAAGGSPESSVECDHLLQLESGPEVVKARTEWRPKSANNPRSI LEMPAESS* SEQ ID NO: 187 Cuphea carthagenensis CCrFATB2c (V138L variant of FATB2) MVAAAASSAFFPVTTPGTSRKPGKFGNWLSSLSPPFRPKSIPSGGFQVKANASAHPKANGSAVSLKSGSLNT QEDTSSSPPPRAFINQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRSDMLVDSFGMERIVQDGLLFRQSF SIRSYEIGADRRASIETLMNHLQETSLNHCKSIRLLNEGFGRTPEMCKRDLIWVVTRMHIMVNRYPTWGDT VEINTWVSQSGKNGMGRDWLISDCNTGEILIRATSAWAMMNQKTRRLSKLPYEVSQEIAPHFVDSPPVIED GDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESMPTEVLETHELCFLTLEYRRECGRD SVLESVTAMDPSNEGGRSHYQHLLRLEDGTDIVKGRTEWRPKNARNIGAISTGKTSNGNPAS* SEQ ID NO: 188 Cuphea carthagenensis CCrFATB2 MVAAAASSAFFPVTTPGTSRKPGKFGNWLSSLSPPFRPKSIPSGGFQVKANASAHPKANGSAVSLKSGSLNT QEDTSSSPPPRAFINQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRSDMLVDSFGMERIVQDGLVFRQSF SIRSYEIGADRRASIETLMNHLQETSLNHCKSIRLLNEGFGRTPEMCKRDLIWVVTRMHIMVNRYPTWGDT VEINTWVSQSGKNGMGRDWLISDCNTGEILIRATSAWAMMNQKTRRLSKLPYEVSQEIAPHFVDSPPVIED GDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESMPTEVLETHELCFLTLEYRRECGRD SVLESVTAMDPSNEGGRSHYQHLLRLEDGTDIVKGRTEWRPKNARNIGAISTGKTSNGNPAS* SEQ ID NO: 189 CcrFATB2b MVAAAASSAFFPVTTPGTSRKPGKFGNWLSSLSPPFRPKSIPSGGFQVKANASAHPKANGSAVSLKSGSLNT QEDTSSSPPPRAFINQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRSDMLVDSFGMERIVQDGLVFRQSF SIRSYEIGADRRASIETLMNHLQETSLNHCKSIRLLNEGFGRTPEMCKRDLIWVFTRMHIMVNRYPTWGDT VEINTWVSQSGKNGMGRDWLISDCNTGEILIRATSAWAMMNQKTRRLSKLPYEVSQEIAPHFVDSPPVIED GDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESMPTEVLETHELCFLTLEYRRECGRD SVLESVTAMDPSNEGGRSHYQHLLRLEDGTDIVKGRTEWRPKNARNIGAIPTGKTSNGNPAS* SEQ ID NO: 190 CcrFATB1 MVATAASSAFFPVPSPDSSSRPGKLGNGPSSLSPLKPKSTPNGGLQVKANASAPPKINGSSVGLKSSSLKTQD DTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLTDPFGLGRIVQDGLVFRQNFSI RSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWGD TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAPVI EDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGK ESVLESLTAVDPSGKGWGSHFQHLLRLEDGGEIVKGRTEWRPKNAGINGAVAFEETSPGDS* SEQ ID NO: 191 CcrFATB1b MVATAASSAFFPVPSPDSSSRPGKLGNGPSSLSPLKPKSTPNGGLQVKANASAPPKINGSSVGLKSSSLKTQD DTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLTDPFGLGRIAQDGLVFRQNFSI RSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWGD TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAPVI EDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGK ESVLESLTAVDPSGKGWGSHFQHLLRLEDGGEIVKGRTEWRPKNAGINGAVAFEETSPGDS* SEQ ID NO: 192 CCrFATB1c MVATAASSAFFPVPSPDSSSRPGKLGNGPSSLSPLKPKSTPNGGLQVKANASAPPKINGSSVGLKSSSLKTQD DTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLTDPFGLGRIVQDGLVFRQNFSI RSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWGD TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAPVI EDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGK ESVLESLTAVDPSGKGWGSHFQHLLRLEDGGEIVKGRTEWRPKNA* 

1. A nucleic acid construct comprising a regulatory element and a FatB gene expressing an active acyl-ACP thioesterase operable to produce an altered fatty acid profile in an oil produced by a cell expressing the nucleic acid construct, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 5 of Table 1a, the sequence having at least 94.6% sequence identity with each of SEQ ID NOs: 88, 82, 85, and 103, and optionally wherein the fatty acid of the oil is enriched in C8 and C10 fatty acids.
 2. A nucleic acid construct comprising a regulatory element and a FatB gene expressing an active acyl-ACP thioesterase operable to produce an altered fatty acid profile in an oil produced by a cell expressing the nucleic acid construct, wherein the FatB gene expresses a protein having an amino acid sequence falling within one of clades 1-12 of Table 1a.
 3. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 1 of Table 1a, the sequence having at least 85.9% sequence identity with each of SEQ ID NOs: 19, 161, 22, and 160, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.
 4. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 2 of Table 1a, the sequence having at least 89.5% sequence identity with each of SEQ ID NOs: 134-136, 132, 133, 137, 124, 122, 123, 125, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.
 5. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 3 of Table 1a, the sequence having at least 92.5% sequence identity with each of SEQ ID NOs: 126 and 127, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.
 6. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 4 of Table 1a, the sequence having at least 83.8% sequence identity with SEQ ID NO: 79, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.
 7. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 6 of Table 1a, the sequence having at least 99.9% sequence identity with each of SEQ ID NOs: 111 and 110, and optionally wherein the fatty acid of the oil is enriched in C10 fatty acids.
 8. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 7 of Table 1a, the sequence having at least 89.5% sequence identity with each of SEQ ID NOs: 73, 106, 185, 172, 171, 173, 174, and optionally wherein the fatty acid of the oil is enriched in C10 and C12 fatty acids.
 9. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 8 of Table 1a, the sequence having at least 85.9% sequence identity with each of SEQ ID NOs: 112, 113, 142, 145, 143, 144, 139, 140, 138, 141, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.
 10. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 9 of Table 1a, the sequence having at least 83.8% sequence identity with each of SEQ ID NOs: 187-189, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.
 11. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 10 of Table 1a, the sequence having at least 95.9% sequence identity with each of SEQ ID NOs: 147, 149, 146, 150, 152, 151, 148, 154, 156, 155, 157, 108, 75, 190, 191, and 192, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.
 12. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 11 of Table 1a, the sequence having at least 88.7% sequence identity with SEQ ID NO: 121, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.
 13. The nucleic acid construct of claim 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within Glade 12 of Table 1a, the sequence having at least 72.8% sequence identity with each of SEQ ID NOs: 129 and 186, and optionally wherein the fatty acid of the oil is enriched in C16 fatty acids.
 14. An isolated nucleic acid or recombinant DNA construct comprising a nucleic acid, wherein the nucleic acid has at least 70% sequence identity to any of SEQ ID NOS: 2, 3, 5, 6, 8, 9, 11, 12, 14, 15, 17, 18, 20, 21, 23, 24, 26, 27, 29, 30, 32, 33, 35, 36, 38, 39, 41, 42, 44, 45, 47, 48, 50, 51, 53, 54, 56, 57, 59, 60, 62, 63, 65, 66, 68, 69, 71, 72, 74, 76, 78, 80, 81, 83, 84, 86, 87, 89, 90, 92, 93, 95, 96, 98, 99, 101, 102, 104, 105, 107, 109 or any equivalent sequences by virtue of the degeneracy of the genetic code.
 15. An isolated nucleic acid sequence encoding a protein or a host cell expressing a protein having at least 70% sequence identity to any of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, 110-192 or a fragment thereof having acyl-ACP thioesterase activity.
 16. The isolated nucleic acid of claim 15, wherein, the protein has acyl-ACP thioesterase activity operable to alter the fatty acid profile of an oil produced by a recombinant cell comprising that sequence.
 17. A method of producing a recombinant cell that produces an altered fatty acid profile, the method comprising transforming the cell with a nucleic acid according to claim
 2. 18. A host cell produced by the method of claim
 17. 19. The host cell of claim 18, wherein the host cell is selected from a plant cell, a microbial cell, and a microalgal cell.
 20. A method for producing an oil or oil-derived product, the method comprising cultivating a host cell of claim 18, and extracting oil produced thereby, optionally wherein the cultivation is heterotrophic growth on sugar.
 21. The method of claim 20, further comprising producing a fatty acid, fuel, chemical, or other oil-derived product from the oil.
 22. An oil produced by the method of claim 20, optionally having a fatty acid profile comprising at least 20% C8, C10, C12, C14 or C16 fatty acids.
 23. An oil-derived product produced by the method of claim
 21. 24. The oil of claim 23, wherein the oil is produced by a microalgae and optionally, lacks C24-alpha sterols. 